<==== Sam's Laser FAQ ====>

Comprehensive Table of Contents
Links to Every Chapter and Section

(15-Aug-09)

Copyright © 1994-2009
Samuel M. Goldwasser
--- All Rights Reserved ---

For corrections/comments/suggestions, please contact me via the Sci.Electronics.Repair FAQ Email Links Page.

1. This notice is included in its entirety at the beginning.
   
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Introduction

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Welcome Page, Expanded ToC, Comprehensive ToC

• SAM: Sam's Laser FAQ Welcome Page
• FIL: Expanded Table of Contents (ToC) - HTML, diagrams, photos, and schematics.
• TOC: Comprehensive Table of Contents - Direct links to every chapter and section (this file).

Sam's Laser FAQ Main Table of Contents

• FAQ: Foreword - How Sam's Laser FAQ evolved into what it is today and other tid-bits.
• FAQ: Preface - Author & copyright, DISCLAIMER, acknowledgements, requests.
• FAQ: Introduction - Scope, purpose, and organization of this document, related information.
• FAQ: What is a Laser and How Does It Work? - The laser age, principles, types, on-line tutorial, lasers as a hobby.
• SAF: Laser Safety - Hazards to vision, other issues, 100 W light bulb versus 1 mW laser, safety classifications, links.
• IOI: Items of Interest - Laser power meters, Fabry-Perot and DFB types, wavelengths, speckle, collimation, etc.
• LIA: Laser Instruments and Applications - Rangefinders, interferometers, gyros, light shows, laser TV, Fourier optics.
• EXP: Laser Experiments and Projects - Basic to advanced including diffraction, interference, holography, display, more.
• LIR: Laser Information Resources - Books, magazines, collections, patents; Web newsgroups, lists, forums, links.
• LPS: Laser and Parts Sources - Walk-in, mail order, high quality, surplus, component and system manufacturers.
• DIO: Diode Lasers - Basic considerations, visible and IR (e.g., from CD player) types, testing, visibility, collimation.
• DPS: Diode Laser Power Supplies - Drive requirements, modulation, sample circuits for low and high power devices.
• HEN: Helium-Neon Lasers - Theory (simple), operation, sealed tube structure, characteristics, power requirements.
• HCL: Commercial HeNe Lasers - Specific models from Melles Griot, Spectra-Physics, PMS/REO, Coherent, more.
• HTR: HeNe Laser Testing, Adjustment, Repair - Problems, testing, mirror alignment, collimation, polarization, refilling.
• HPS: HeNe Laser Power Supplies - Requirements, types, plug-n-lase, matching tube to PS, testing, problems, repair.
• HPD: HeNe Laser Power Supply Design - AC line powered, low voltage inverters, starters, regulators, modulators.
• HSC: Complete HeNe Laser Power Supply Schematics - more than 35 AC line and 25 inverter types, most you can build.
• ARG: Argon/Krypton Ion Lasers - General features and characteristics, basic power requirements, specific examples.
• ATR: Ar/Kr Ion Laser Testing, Maintenance, Repair - Tube life, problems, testing, general maintenance, alignment.
• APS: Ar/Kr Ion Laser Power Supplies - Basic requirements, types, specific safety issues, testing, problems, repair.
• APD: Ar/Kr Ion Laser Power Supply Design - AC line front-ends, igniters, linear and switchmode regulators, protection.
• ASC: Complete Ar/Kr Ion Laser Power Supply Schematics - Both linear and switching types using common parts.
• CO2: Carbon Dioxide Lasers - Characteristics and requirements, applications, small sealed tubes, gas fill, optics.
• HEC: Helium-Cadmium Lasers - Characteristics, power supplies, HeCd laser head and PSU troubleshooting.
• SSL: Solid State Lasers - Characteristics, types, pulsed/CW, Q-switching, frequency changing, common SS lasers.
• SCL: Commercial SS Lasers - Hughes M60, SSY1, C215/315/415M, C532, uGreen, MG-BLD/GSD, LWE-221, more.
• STR: SS Laser Testing, Adjustment, Repair - Cleaning, cooling, alignment, tuning, beam quality and energy.
• SPS: SS Laser Power Supplies - Capacitor chargers, PFNs, PSUs using photoflash units, sources for special parts.
• SSC: Complete SS Laser Power Supply Schematics - Circuits for the Hughes ruby and YAG lasers, uYAG, more.
• CON: Amateur Laser Construction - Resources, safety, the home laser lab, supplies, vacuums, glass working, more.
• CVA: Vacuum Technology for Home-Built Gas Lasers - Vacuum basics, pumps, gauges, components, testing, repair.
• CLP: The Home-Built Laser Assembly and Power Supply - Structure, optics, mirror mounts, electrical components.
• CLT: Home-Built Laser Types, Information, and Links - Introduction to laser descriptions and "Light and its Uses".
• CHN: Home-Built Helium-Neon (HeNe) Laser - Much like the original gas laser from 1962 produces a red beam.
• CAR: Home-Built Pulsed Argon and/or Krypton (Ar/Kr) Ion Laser - A similar gas laser produces multiple color beam.
• CC2: Home-Built Carbon Dioxide (CO2) Laser - High power (10 to 50 W or more) flowing gas infra-red laser.
• CN2: Home-Built Nitrogen (N2) Laser - Pulsed ultraviolet laser that is easy to construct without fancy equipment.
• CHG: Home-Built Helium-Mercury (HeHg) and Other He-Metal-Vapor Lasers - Operation at multiple visible wavelengths.
• CCB: Home-Built Copper Chloride (CuCl) and Copper Bromide (CuBr) Laser - Pulsed intense yellow and green beam.
• CDY: Home-Built Dye Laser - Generate almost any color of the spectrum depending on which chemical dye is used.
• CMG: Home-Built Pulsed Multiple Gas (PMG) Laser - Simple design uses O2, Xe, Ar, Kr, or Ne; maybe even plain air.
• CPS: Home-Built Pulsed Solid State (PSS) Laser - Basic ruby or Nd:YAG laser system using flashlamp pumping.
• CDS: Home-Built Diode Pumped Solid State (DPSS) Laser - Vanadate with KTP SHG for 1 mW to 5 W green output.

Preface, Introduction, What is a Laser?, Laser Safety

• FAQ: Author and Copyright
• FAQ: Use Without Permission or Acknowledgement Alerts
• FAQ: DISCLAIMER
• FAQ: Acknowledgements
• FAQ: More on My Background and What I Do for a Real Job
• FAQ: Sam's Laser Lab and Lasers
• FAQ: Please Don't Scrap Your Unwanted or Broken Lasers or Laser Related Equipment and Parts!
• FAQ: Request for Computer Resources in Support of Sam's Laser FAQ Development
• FAQ: Scope and Purpose of This Document
• FAQ: Organization of This Document
• FAQ: Related Information
• FAQ: A Brief Introduction to Lasers Principles and Structure
• FAQ:     The Laser Age
• FAQ:     General Physical Characteristics of Lasers
• FAQ:     Basic Laser Operation
• FAQ: On-line Introductions to Lasers
• FAQ: Characteristics of Some Common Lasers
• FAQ:     The Largest and Smallest Lasers
• FAQ: Lasers for the Hobbyist and Experimenter
• FAQ:     Why Do People Get Into Lasers?
• FAQ:     Commercial Lasers Versus Amateur Laser Construction
• FAQ:     General Comments on Lasers as a Hobby
• FAQ:     Database of Equipment Containing Interesting Lasers

Laser Safety

• SAF: Introduction to Laser Safety
• SAF:     You Only Received One Set of Eyeballs?
• SAF:     Comparison of Intensity of a 1 mW Laser and the Sun
• SAF:     Why a 1 mW Helium-Neon Laser Still Appears Bright a Mile Away
• SAF:     Problems With Determining Safe Limits
• SAF:     On-Line Laser Safety Calculator
• SAF: Safety Issues With Respect to Hobbyist Lasers
• SAF:     Low, Medium, and High Power Lasers
• SAF:     General Laser Safety Guidelines
• SAF:     Laser Pointer Safety
• SAF:     Barcode Scanner Safety
• SAF:     How Does Wavelength Affect Laser Safety?
• SAF:     Harmonic Generation and Laser Safety
• SAF:     Fluorescence and Laser Safety
• SAF:     Caution About Depending on Neutral Density Filters for Protection
• SAF:     Comments on Eye Protection for High Power Lasers
• SAF:     If you Insist on NOT Using Proper Eye-Wear
• SAF:     Indirect Viewing of Lasers for Maximum Safety
• SAF:     When Laser Safety Goggles may be a Bad Thing
• SAF:     More on Laser Safety Precautions
• SAF:     Comments on the Effects of Various Power Lasers
• SAF:     Accidents Can Happen
• SAF:     Laser Safety and Aviation
• SAF: Laser Safety Classification
• SAF:     A Smorgasbord of Acronyms
• SAF:     Hobbyist Projects and Laser Safety Classifications
• SAF:     Laser Safety Labels and Signs
• SAF:     Regulations for Private Ownership, Transfer, or Sale of Lasers and Laser Based Equipment
• SAF:     Regulations for Manufacturers of Lasers and Laser Based Equipment
• SAF:     CDRH Clarification of CDRH Regulations

Items of Interest

• IOI: Introduction to Items of Interest
• IOI:     Brief Glossary of Common Laser Terms
• IOI:     International System of Units (SI) Prefixes
• IOI:     Web Site With Some Common Optical Calculations
• IOI: Laser Power, Photons, How Much Light?, Beam Profile
• IOI:     About Laser Power Ratings
• IOI:     Radiometry Primer: What is a Lumen, Lux, Nit, Candela?
• IOI:     Conservation of Radiance
• IOI:     So How Many Photons are Coming Out of My Laser?
• IOI:     How Much Light Does a 5 W Laser Really Produce?
• IOI:     How Dim a Laser Can be Seen by the Naked Eye?
• IOI:     Laser Powered LEDs
• IOI:     Pressure of Light
• IOI:     Interaction of Beams of Light?
• IOI:     Measuring the Beam Profile
• IOI:     Photographing Laser Beams
• IOI:     Laser Beam Power Inside and Outside the Laser
• IOI: Laser Power Meters
• IOI:     What Makes a Laser Power Meter So Expensive?
• IOI:     Types of Semiconductor Light Sensors
• IOI:     Thermal Laser Power and Energy Meters
• IOI:     Measuring Power of Short Pulses
• IOI:     Sam's Super Cheap and Dirty Laser Power Meter (SG-PM0)
• IOI:     Sam's Simple Photodiode Sensor Unit
• IOI:     Sam's Laser Power Meter 1 (SG-PM1)
• IOI:     Sam's Laser Power Meter 2 (SG-PM2)
• IOI:     Simple Laser Power Meter Using Photocell
• IOI:     Comments on Home-Built Laser Power Meters
• IOI:     Effect of Beam Size and Angle on Power Meter Reading
• IOI:     Coherent Lasercheck Hand-Held Laser Power Meter
• IOI:     Coherent FieldMaster Laser Power and Energy Meter
• IOI:     Spiricon MPE-2500 Laser Power and Energy Meter
• IOI:     Newport Model 820 Laser Power Meter
• IOI:     Sensor for a UDT Instruments Model 351 Power Meter
• IOI:     Scientech Thermal Laser Power and Energy Meters
• IOI:     Simple Thermal Laser Power Metersi
• IOI:     EG&G Model 460-1A Laser Power Meter
• IOI:     UDT Sensors Photops Photodiode/Preamp Hybrids
• IOI:     Spectra-Physics Model 405 Pyroelectric Laser Power Meter
• IOI:     About Those IR Indicator Cards
• IOI:     Extending the Range of a Laser Power Meter 1
• IOI:     Extending the Range of a Laser Power Meter 2
• IOI:     Using a Photographic Exposure Meter as a Laser Power Meter
• IOI: Gain, Stability, Efficiency, Life, FB versus DFB Laser
• IOI:     Factors Affecting Laser Resonator Performance
• IOI:     Common Laser Resonator Configurations
• IOI:     Resonator Gain and Losses
• IOI:     Resonator Stability
• IOI:     Cavity Length Versus TEM00 Power
• IOI:     Q Factor and Finesse of a Laser Resonator
• IOI:     Laser System Efficiency
• IOI:     Laser System Life
• IOI:     Difference between Fabry-Perot and DFB lasers
• IOI:     Ring Lasers
• IOI:     What is Spatial Hole Burning?
• IOI:     How to Determine Possible Lasing Wavelengths of a Laser Cavity
• IOI:     Determining which Spectral Lines will Lase
• IOI:     Changes to Spectra When Lasing is Present
• IOI:     The Single Pass Gain Test
• IOI:         Performing the Single Pass Gain Test
• IOI:     Laser Relaxation Oscillations
• IOI: Pulsed/Average Power, Q-Switching, Ultra-Short Pulse Lasers
• IOI:     Average Power from Pulsed Laser
• IOI:     What is Q-Switching?
• IOI:     Ultra-Short Pulse Lasers
• IOI:     Air Breakdown
• IOI: Laser Optics
• IOI:     Mirrors used for Lasers and Laser Applications
• IOI:     Estimating Dielectric Mirror Spectral Reflectivity
• IOI:     Commercial Laser Mirrors
• IOI:         Spectra-Physics Laser Cavity Mirrors
• IOI:     Adjustable Laser Mirror Mounts
• IOI:     Mirrors for Ultra-Short Pulses
• IOI:     Radioactive Laser Mirrors?
• IOI:     Wavelength Selective Filters
• IOI:     Neutral Density Filters
• IOI:     What is a Brewster Window?
• IOI:         George's Comments on Brewster Windows
• IOI:     Index of Refraction and Brewster Angles for Various Materials
• IOI:     Polarizing Materials and Optics
• IOI:         Phil's Comments on Polarization
• IOI:         Effects of Reflection on Polarization
• IOI:     What is a Waveplate?
• IOI:         Summary of Wave Plate Behavior
• IOI:     What is an Etalon?
• IOI:     Perpendicular Uncoated Windows in a Low Gain Laser
• IOI:     Why Laser Optics Collect Loads of Dust
• IOI:     Variable Reflectance, Peak Wavelength, or Attenuation Using Dielectric Mirrors
• IOI:     Comments on Optics for CW and Pulsed Lasers
• IOI: Laser Wavelengths
• IOI:     Wavelengths of Some Common Lasers
• IOI:     Dye Laser Dyes and Peak Emission Wavelengths
• IOI:     What Determines the Wavelength of a Laser?
• IOI:     Determining the Wavelength of a Laser
• IOI:         Using a Diffraction Grating to Check Laser Wavelength(s)
• IOI:         The Iodine Vapor Cell Wavelength Reference
• IOI:     Spectral Differences Based on Isotope
• IOI:     Wavelength versus Frequency
• IOI: Laser Visibility and Color
• IOI:     Relative Visibility of Light at Various Wavelengths
• IOI:     Comments on Beam Visibility
• IOI:     Color Versus Wavelength
• IOI:     Matching RGB Values to Wavelength
• IOI:     Reproducing Visible Spectra
• IOI:     Comments on Various Color Lasers
• IOI:     Why Skyward-Directed Laser Beams Appear to Terminate in Mid-Air
• IOI:     Using a Laser Pointer to Find Objects in the Night Sky
• IOI: Laser Beam Spectral and Other Effects
• IOI:     Fluorescence in Common Materials
• IOI:     Laser Light Reflects as Different Color(s)
• IOI:     Laser Darkens Luminous Sign?
• IOI:     The Bursting Balloon Inside a Balloon Trick
• IOI: Speckle, Coherence, Stability, Polarization, Noise
• IOI:     What is Laser Speckle?
• IOI:     Laser Speckle from Laser Pointer and Candle?
• IOI:     Controlling Laser Speckle
• IOI:     Reducing Laser Speckle in an Imaging System
• IOI:     Comments on Spatial and Temporal Coherence
• IOI:     Determining Coherence Length
• IOI:     Testing a Laser for Single Frequency Operation
• IOI:     Laser Instability
• IOI:     Polarization
• IOI:     Amplitude Noise
• IOI: Beam Collimation, Divergence, Focus
• IOI:     How the Beam Diameter Varies with Distance
• IOI:     Rayleigh Length
• IOI:     What is M-Square (M2)?
• IOI:     Modifying or Improving Collimation
• IOI:     Problems with Laser Beam Divergence or Focus
• IOI:     More on Laser Collimation and Focus
• IOI:     Some Rules-of-Thumb for Spot Size and Divergence
• IOI:     Coupling a Laser Beam into an Optical Fiber
• IOI: Laser Beam Profiles, Cleanup
• IOI:     About Gaussian Beam Profiles
• IOI:     Forcing a Laser to Produce a TEM00 Beam
• IOI:     Possible Causes of Interference Patterns in Laser Beam
• IOI:     Laser Beam Cleanup - the Spatial Filter
• IOI:         More on Spatial Filters
• IOI: Laser Beam Splitting and Combining
• IOI:     Splitting a Multiline Beam into its Individual Colors
• IOI:     Combining Light from Multiple Lasers
• IOI: Diffraction Gratings, Pattern Generation
• IOI:     Diffraction Gratings
• IOI:         Use of a CD, CDROM, CD-R, or DVD Disc as a Diffraction Grating
• IOI:         Ken's CD and Other Diffractions Grating Tricks
• IOI:         What About the Diffraction Grating in Optical Pickups?
• IOI:         Cleaning Diffraction Gratings
• IOI:     Generating Lines or Crosses of Light
• IOI:     Projecting a 1-D or 2-D Grid of Dots or Lines
• IOI:     Diffractive Pattern Generating Optics
• IOI:         Additional Comments on Diffractive Pattern Generating Optics and DOEs in General
• IOI:     Pattern Generation Using Conventional Optics
• IOI: Modulation and Deflection
• IOI:     Acousto-Optic Modulators and Deflectors
• IOI:         Testing a Surplus AOM
• IOI:         The Dual Channel Xerox AOM
• IOI:     Is There a Laser with Full Spectrum Wavelength Modulation?
• IOI:     Full Color Modulation - The PCAOM
• IOI:     Kerr Cell, Pockel's Cell, and Photo-Elastic Modulators
• IOI:     Inexpensive Compact Piezo Modulator
• IOI:     Spatial Light Modulators
• IOI:     Comments on Mechanical Deflection
• IOI:     Comments on High Speed Line and Raster Scanning
• IOI:     Other Types of Lasers and Related Devices
• IOI:     What About All Those Other Types of Lasers?
• IOI:     How to Tell if It is a Laser?
• IOI:     Whatever Happened to Masers?
• IOI:     Excimer Lasers
• IOI:     X-Ray Lasers
• IOI:     Free Electron Lasers
• IOI:     Optical Parametric Oscillators
• IOI:     TEA HeNe or Ion Lasers?
• IOI:     Titanium:Sapphire Lasers
• IOI:     Raman Lasers
• IOI:     Alkali Lasers
• IOI:     Chemical Lasers
• IOI: Laser Myths and Fantasies
• IOI:     Introduction to Laser Myths and Fantasies
• IOI:     Some Common Myths of High Energy Weapons
• IOI:     The Light Saber
• IOI: Laser Humor
• IOI:     Introduction to Laser Humor
• IOI:     The Ultimate Laser Pen
• IOI:     Advertising using a Laser - On the Moon
• IOI:     How Much Optical Power to Zap a Balloon or Bug?
• IOI:     Phaser Quality Control
• IOI:     Killing Flies (or Other Things) the Hard Way
• IOI:     The High Tech Fly Immobilizer
• IOI:     The Laser Physicist's Dictionary
• IOI:     So You Think You Want to be an Optical (or Laser) Engineer
• IOI:     How's This for a Useless Patent?
• IOI:     Strange and Weird Things to do with a Laser
• IOI:     What's in a Name?
• IOI:     Tea Laser
• IOI:     Victorian Nitrogen Laser
• IOI:     Technopagan Blessing for a New HeNe Laser
• IOI:     Using a HeNe Laser to Fix a Pitchfork
• IOI:     Lasers in Movies
• IOI:     Assorted Photos and Cartoons

Laser Based Instruments and Applications

• LIA: Introduction to Laser Instruments and Applications
• LIA: Spatial Measurement Near and Far
• LIA:     Using a Laser to Measure Distance, Position, or Speed
• LIA:     Optical Rangefinders
• LIA:     Simple Laser Rangefinder Based on Triangulation
• LIA:     Comments on Laser Rangefinders
• LIA:     Building a Time-of-Flight Laser Rangefinder
• LIA:     Resonant Time-of-Flight Laser Rangefinder
• LIA:     Time-of-Flight Laser Rangefinder using CCD Camera
• LIA:     Using a CD or DVD Optical Pickup for Distance Measurements
• LIA:     Using a CD or DVD Optical Pickup in a Precision Position or Angle Encoder
• LIA:     Measuring Speed with a Laser
• LIA: General Interferometers
• LIA:     Basics of Interferometry and Interferometers
• LIA:     Where Does All the Energy Go?
• LIA:     Interference between E/M Radiation of Different Wavelengths
• LIA:     What about Hobbyist Interferometry?
• LIA:     Interferometers Using Inexpensive Laser Diodes
• LIA:     Can I Use the Pickup from a CD Player or CDROM Drive for Interferometry?
• LIA: Interferometers Using Two-Frequency Lasers
• LIA:     Lasers for Interferometers Using Two-Frequency Lasers
• LIA:     Optics for Interferometers Using Two-Frequency Lasers
• LIA:     Electronics for Interferometers Using Two-Frequency Lasers
• LIA:         Sam's Measurement Display for Two-Frequency Interferometers
• LIA:     Sources of Measurement Error in HP/Agilent Metrology Systems
• LIA:         Determining the Exact Laser Wavelength or Frequency
• LIA:         Comparing the Optical Frequencies
• LIA:         Causes of Variation of the Optical Frequency
• LIA: Scanning Fabry-Perot Interferometers
• LIA:     Introduction
• LIA:     Principles of Operation
• LIA:     Mode Degenerate Fabry-Perot Interferometer
• LIA:     More Information on SFPI Theory and Practice
• LIA:     Constructing Inexpensive Scanning Fabry-Perot Interferometers
• LIA:         Sam's $1.00 Scanning Fabry-Perot Interferometer
• LIA:         Sam's $2.00 Scanning Fabry-Perot Interferometer
• LIA:         Sam's $3.00 Scanning Fabry-Perot Interferometer
• LIA:         Simple Driver for Scanning Fabry-Perot Interferometer
• LIA:         The $99 Scanning Fabry-Perot Interferometer
• LIA:     The Spectra-Physics 470 SFPI
• LIA:     The Spectra-Physics 450 SFPI
• LIA:     The Spectra-Physics 476 SFPI Driver
• LIA: Monochromators
• LIA:     Basic Description
• LIA:     Intruments SA Model H2O 1200 Monochromator
• LIA:     Verity Instruments Model EP200 Monochromator/Detector
• LIA:         Initial Testing and Adjustment of an EP200
• LIA:         Narrowing the Slits in an EP200
• LIA:     Monolight Model 6100 Scanning Monochromator
• LIA: Optical Wavelength Meters
• LIA:     Principles of Operation
• LIA:     Tuneup of a Burleigh WA-20 Wavemeter
• LIA: Ring Laser Gyros
• LIA:     Basic Description and Operation
• LIA:     Home-Built Ring Laser Gyro?
• LIA: Fourier Optics
• LIA:     Introduction to Fourier Optics
• LIA:     Basic Setup for Simple Fourier Optics Experiments
• LIA:     Comments on Fourier Optics
• LIA: Barcode (UPC) Scanners
• LIA:     Introduction to Barcode Scanners
• LIA:     Anatomy of a Barcode Scanner
• LIA:     Apparent Brightness and Safety of Barcode Scanners
• LIA:     Metrologic Model MH290 Hand-Held Barcode Scanner
• LIA: CD, DVD, and Other Optical Disc/k Systems
• LIA: Laser Printers and Similar Equipment
• LIA:     Introduction to Laser Printers
• LIA:     Anatomy of the Optical System of a Laser Printer
• LIA: Laser Light Show Lasers
• LIA:     Some Basic Info on Light Show Lasers
• LIA:     Safety of Laser Shows
• LIA:     Single or Multiple Lasers for Color Presentation?
• LIA:     About the Schneider High Power DPSS RGB Laser/Projector
• LIA:     Inexpensive Combining of Argon Ion and HeNe Laser Beams
• LIA:     Dichroic Mirrors for Separating Multiline Beams
• LIA:     Visibility of High Power Laser Beams
• LIA:     Limitations of Lasers for Large Scale Shows
• LIA:     Use of Pulsed Laser for Laser Shows?
• LIA:     Holographic Laser Show Images?
• LIA:     Laser Show on a Shoe String
• LIA:     Building a Beam Table
• LIA:     Galvo Type Deflectors for Laser Light Shows
• LIA:     Dye Laser for Red through Yellow Wavelengths?
• LIA: Laser Based Systems for 2-D and 3-D Display
• LIA:     Whatever Happened to Laser TV?
• LIA:     Laser Based 3-D Displays
• LIA:     3-D Laser Engraving Inside a Glass Block
• LIA:     LCD Based Holographic Display
• LIA: Introduction to Holography
• LIA:     What is Holography?
• LIA:     Description of Holography Technique
• LIA:     Basic Amateur Holography Setup
• LIA:     Complete Holography Kits for Education
• LIA:     Holography Using Cheap Diode Lasers
• LIA:     Monitoring the Wavelength Stability of a Laser Diode
• LIA:     Holographic Video Displays
• LIA:     Suitable Lasers for Holography
• LIA:     Holographic Information Resources
• LIA: Laser Communications
• LIA:     Basic Description
• LIA:     Amateur Laser Communications
• LIA:     Early Laser Communications Experiment
• LIA: Miscellaneous
• LIA:     Use of Laser to Identify Stars in the Sky to a Group

Laser Experiments and Projects

• EXP: Laser Experiments and Projects Introduction
• EXP:     Scope of This Chapter
• EXP:     Laser Experiments and Projects Acknowledgements
• EXP:     Laser Experiments Safety
• EXP:     Suggested Lasers and Optics Science Museum Interactive Exhibits
• EXP:     Other Laser Experiments and Projects Resources
• EXP: Basic Experiments with Lasers
• EXP:     Beam Characteristics
• EXP:     Geometric Optics
• EXP:     The Series Mirror Paradox
• EXP: Diffraction and Interference
• EXP:     Single Edge Diffraction
• EXP:     Double Slit Diffraction
• EXP:     Interference Involving Multiple Sources
• EXP:     Foucult Experiment
• EXP:     Schlieren Optics
• EXP:     Complex Diffraction and Interference Patterns
• EXP:     Determining Laser Wavelength Using a Ruler
• EXP:     Spectral Lines in HeNe Laser Tube Discharge Versus Output Wavelength
• EXP: Experiments Inside the Laser Cavity
• EXP:     The External Mirror Laser
• EXP:     Mirrors
• EXP:     Brewster Windows
• EXP:     Transverse Modes
• EXP:     Longitudinal Modes
• EXP:         Display and Analysis of Mode Sweep
• EXP:         Effects of Magnetic Fields on HeNe Laser Modes
• EXP:     Etalons
• EXP:         Effect of HR Wedge on HeNe Laser Waste Beam
• EXP:         Perpendicular Window Trick
• EXP:     Resonator with Intermediate Mirror
• EXP:     Scattering
• EXP:     Particle Counting
• EXP:     Optical Tweezers
• EXP:     Single Pass Gain
• EXP:     Experiments With the Mirror/Optics Test Jig Using One-Brewster HeNe Laser Tube
• EXP:     The Self-Optogalvanic Effect in HeNe Lasers
• EXP: Fourier Optics
• EXP:     Fourier Transform
• EXP:     Spatial Harmonics
• EXP:     Spatial Filtering
• EXP: Advanced Laser Experiments
• EXP:     Michelson Interferometer
• EXP:     High Resolution Interferometer
• EXP:     Scanning Fabry-Perot Interferometer
• EXP:     Waste Beam Interferometer
• EXP:     The Laser Oscillator
• EXP:     Holography
• EXP:     Other Lasing Wavelengths from HeNe Laser Tubes
• EXP:     One and Two Mode Stabilized HeNe Lasers
• EXP:     Beat Frequencies Due to Longitudinal Modes
• EXP:     Beat Frequencies Due to Transverse Modes
• EXP:     Demonstration of Zeeman Splitting in a HeNe Laser
• EXP:         Demonstration of Zeeman Splitting in a Axial Magnetic Field
• EXP:         Demonstration of Zeeman Splitting in a Transverse Magnetic Field
• EXP:     Faraday Rotation
• EXP:         Sam's Magnetic Pulser for Testing Faraday Rotation
• EXP: Laser Measurements
• EXP:     Laser Rangefinder
• EXP:     Laser Beacon
• EXP:     Laser Level
• EXP:     Laser Seismometer
• EXP: Laser Surveillance
• EXP:     Laser Burglar Alarm
• EXP:         Simple Beam Break Detector
• EXP:         Laser Listener
• EXP: Laser Communications
• EXP:     Modulation
• EXP:     Detection
• EXP:     Free Space Link
• EXP: Laser Display
• EXP:     Simple Deflection
• EXP:     Laser Oscilloscope
• EXP:     Laser Digital Clock
• EXP:     Raster Scan
• EXP:     Multicolor Merging
• EXP:     Real Time Conway's Game of Life Display
• EXP: Laser Games
• EXP:     Laser Maze See the section:
• CHN:     Transverse Zeeman

• LIR: References on Laser Principles, Technology, Construction, and Applications
• LIR:     Books, Collections, Other Publications
• LIR:     Free Lasers/Optics Trade Magazines
• LIR:     Patents
• LIR: Newsgroups, Discussion Groups and Technical Forums, Listservers
• LIR:     Laser Related USENET Newsgroups
• LIR:     Laser Discussion Groups and Technical Forums
• LIR:     Laser (Email) Listservers
• LIR: Laser and Optics Related Web Links
• LIR:     Searching for Laser Information on the Web
• LIR:     The Laser, Optics, and Holography Ring
• LIR:     Laser Related Web Sites and Links

Laser Parts Sources

• LPS: Where to Find Laser Equipment and Parts
• LPS:     Sources for Everything from $5 Laser Diodes to $100,000 C02 Laser Welders
• LPS:     Locating Laser Specifications
• LPS:     Buyer Beware for Laser Purchases
• LPS:     Some Tips for Sellers
• LPS:     Packing Laser Equipment to Withstand Drunk 900 Pound Gorillas During Shipping
• LPS:         Packing a Spectra-Physics Model 127 Laser
• LPS:     Comments on Shipping/Export of Small Lasers
• LPS: New, Surplus, Walk-In, Mail Order, Kits/Plans (Commercial)
• LPS:     Walk-In/Mail Order
• LPS:     Mail Order/Web - Lasers, Laser Parts, Optics, Accessories
• LPS:     Mail Order/Web - Electronics Surplus, Some Lasers - Varies from Month to Month
• LPS:     Mail Order/Web - Electronic Components
• LPS:     Electronic, Optics, and Laser Project Plans, Parts, Kits, Specialized Components
• LPS:     High Quality New and Surplus
• LPS:     Scrap and Salvage
• LPS:     How to Get a Laser Without Really Trying - Part 1
• LPS:     How to Get a Laser Without Really Trying - Part 2
• LPS: On-Line Sources (Non-Commercial)
• LPS:     You Don't Have to Buy from Companies
• LPS:     Newsgroups and Similar Forums
• LPS:     Internet Classifieds
• LPS:     Sam's Stuff for Sale or Trade and Items Wanted
• LPS:     Auctions
• LPS:         Sam's eBay Horror Story #1
• LPS: Laser Sales and Service Companies
• LPS: Laser Diode Manufacturers, Part Numbers, and Specifications
• LPS: Laser and Optics Manufacturers and Suppliers

Diode Lasers

• DIO: Basic Characteristics, Structure, Safety, Common Types
• DIO:     Introduction to Diode Lasers and Laser Diodes
• DIO:     Examples of Common Laser Diodes
• DIO:     Differences Between LEDs and Laser Diodes
• DIO:     Comparisons of Diode Lasers with Other Types of Lasers
• DIO:     Diode Laser Safety
• DIO:     Typical Laser Diodes
• DIO:     Laser Diode Construction
• DIO:     Interpreting Laser Diode Specifications
• DIO:     What About High Power Visible Laser Diodes?
• DIO:     And Those Really High Power Laser Diodes?
• DIO:     And Those High Power Pulsed Laser Diodes?
• DIO:     Vertical Cavity Surface Emitting Laser Diodes (VCSELs)
• DIO:     Optically Pumped Semiconductor Laser (OPSL)
• DIO:     Vertical Extended Cavity Surface Emitting Laser (VECSEL)
• DIO:         Protera 488 NECSEL Laser
• DIO:     Frequency Doubling a Diode Laser
• DIO:     On-line Introductions to Diode Lasers
• DIO:     Additional Laser Diode Information
• DIO: Beam Characteristics, Correction, Comparison with Other Lasers, Noise
• DIO:     Beam Characteristics of Laser Diodes
• DIO:     Measuring Laser Diode Beam Characteristics
• DIO:     Correcting for Unwanted Laser Diode Beam Characteristics
• DIO:     Laser Diodes with Built-In Beam Correction
• DIO:     Laser Diodes with Built-In Drivers
• DIO:     Beam Correction for Multimode Laser Diodes
• DIO:     Coherence Length of Laser Diodes
• DIO:     Coherence Time of Laser Diodes
• DIO:     Temperature Dependence on Laser Diodes
• DIO:     Comments on Laser Diode Noise and Suppression
• DIO: Diode Laser Modules and Laser Pointers
• DIO:     Alternatives to Using Raw Laser Diodes
• DIO:     A Brief History of the Laser Pointer
• DIO:     Laser Pointer Specifications
• DIO:     Equivalent Brightness Ratings and Laser Pointer Visibility
• DIO:     What's Inside a Laser Pointer?
• DIO:     Laser Pointers that Produce Multiple Patterns
• DIO:     Orange, Yellow, and Green Light from Red Laser Pointer?
• DIO:     Green (or Other Color) Laser Pointers
• DIO:     Additional Precautions with Respect to Green DPSS Laser Pointers
• DIO:     Comments on Souped Up Laser Pointers for Buyers and Sellers
• DIO:     The Benefits of Cheap Laser Pointers for Modulation
• DIO:     Difference Between Diode Laser Modules and Laser Pointers
• DIO:     Sources for Inexpensive Diode Laser Modules
• DIO:     How to Determine if You Have a Diode Laser Module
• DIO:     Brightest Laser Pointer for Outdoor Use?
• DIO:     Can I Boost the Power Output of a Laser Pointer or Diode Laser Module?
• DIO:     What About Using Rechargeable Batteries in a Laser Pointer?
• DIO:     Using an External Power Supply or Wall Adapter for a Laser Pointer
• DIO:     Can I Increase the Life of a Laser Pointer?
• DIO:     Electrical Modulation of a Laser Pointer or Diode Laser Module
• DIO:     Optical Modulation of a Laser Pointer or Diode Laser Module
• DIO:     Causes of Laser Pointer Output Power Changing When Directed at a Mirror
• DIO:     Disassembling a Laser Pointer
• DIO:     Problems with Really Cheap Laser Pointers
• DIO:     Can a Fried Laser Pointer or Diode Laser Module be Repaired?
• DIO:     Repair of Diode Laser Pointers
• DIO:     Cleaning Diode Laser Module Optics
• DIO:     Damage to Camera Sensor from Laser Pointer?
• DIO: Anatomy of Fiber-Coupled Laser Diodes
• DIO:     Opto Power Corporation Fiber-Coupled Laser Diode
• DIO:     Opto Power Corporation High Power Fiber-Coupled Laser Diode
• DIO:     Spectra-Physics Fiber-Coupled Laser Diode
• DIO:     Spectra-Physics High Power Fiber-Coupled Laser Diode Bar
• DIO:         Repairing a Shorted FCBar Module - Sort Of
• DIO:         Replacment of a Damaged FCBar Fiberoptic Cable
• DIO: Low Power Visible and IR Laser Diodes
• DIO:     Low Power Visible Laser Diodes
• DIO:     CD player and Other Low Power IR Laser Diodes
• DIO:     Example of Laser Printer Diode Laser Module
• DIO:     CD Player/CDROM Drive Laser Diode Characteristics
• DIO:     Hologram Laser Diodes
• DIO: Determining Characteristics and Testing of Laser Diodes
• DIO:     Working with Laser Diodes
• DIO:     Determining Characteristics of Laser Diodes Removed From Equipment
• DIO:     Testing of Laser Diodes Using a Lab Power Supply
• DIO:     Testing of Low Power Laser Diodes
• DIO:         Determining the Laser Diode Pinout
• DIO:         Powering Up the Laser Diode
• DIO:         Limited Destructive Testing of Low Power Laser Diodes
• DIO:         Measuring Laser Diode Current in Equipment
• DIO:         Art's Comments on the Testing of Unidentified Laser Diodes
• DIO:         Characteristics of Some Typical Low Power Visible Laser Diodes
• DIO:         Testing of Violet Laser Diodes
• DIO:     Testing of Telecom Laser Diodes
• DIO:     Testing of CD, DVD, HD-DVD, and Blu-ray Burner Laser Diodes
• DIO:     Testing of High Power Laser Diodes
• DIO:         Identifying Connections On High Power Packaged Laser Diodes
• DIO:         Determining Partial High Power LD Specifications Non-Destructively
• DIO:         Determining High Power LD Specifications by Testing to Destruction
• DIO:         Estimating Threshold Current of High Power Laser Diodes
• DIO:         Characteristics of Some Typical High Power IR Platesetter Laser Diodes
• DIO:     Testing of Really High Power Laser Diodes
• DIO:         Characteristics of Some Really High Power IR Diode Lasers
• DIO:     Methods of Sensing IR
• DIO:         IR Detector Circuit
• DIO: Testing of Some Selected Laser Diode and Driver Combinations
• DIO:     Testing the Toshiba TOLD9421 with the iC-Haus WJB Driver
• DIO:     Testing the NVG D660-5 with the NVG NS102 Driver
• DIO:     Testing the NVG D660-5 with the iC-Haus IC-WK Driver
• DIO: Use of Salvaged CD Laser Diodes, Replacement, Substitution
• DIO:     Reasons to Leave the CD Laser Diode in the Optical Block
• DIO:     Replacing a Laser Diode of Unknown Specifications
• DIO:     Substituting One Type of Laser Diode for Another
• DIO:     Removing the Cover from a Laser Diode
• DIO: Laser Diode Life, Damage Mechanisms, COD and ASE, Drive, Cooling
• DIO:     Laser Diode Life
• DIO:     How Can I Tell if My Laser Diode has Been Damaged?
• DIO:     How Sensitive are Laser Diodes, Really?
• DIO:     Laser Diode Damage Mechanisms
• DIO:     Variation in Laser Diode Damage Sensitivity
• DIO:     What is ASE of Laser Diodes?
• DIO:     Comments on Driving Laser Diodes Without Optical Feedback
• DIO:     Frequency Response of Internal Photodiodes
• DIO:     Cooling of Laser Diodes
• DIO:     Comments on Pulsing of Common Laser Diodes
• DIO: Laser Diode Wavelengths, Spectra and Visibility of NIR Laser Diodes
• DIO:     Wavelengths of Diode Lasers
• DIO:     Spectra of Visible and IR Laser Diodes
• DIO:     Visibility of Near-IR (NIR) Laser Diodes
• DIO:     Spectral Width Measurements of Diode Lasers
• DIO: How LEDs Compare to Laser Diodes - Wavelengths, Spectrum, Power, Focus, Safety
• DIO:     Wavelengths of Common LEDs
• DIO:     Spectrum of LEDs
• DIO:     Power Output of Common LEDs
• DIO:     High Power LEDs
• DIO:     Efficiency of LEDs
• DIO:     Measuring Efficiency of LEDs
• DIO:     Super Bright LEDs Versus Laser Diodes
• DIO:     Why Can an LED Not be Focused Like a Laser Diode?
• DIO:     Vision Safety Comparison of Laser Diode, LED, and Light Bulb
• DIO:     Wavelength Shift of LEDs at High Current
• DIO:     Other LED Information
• DIO: Availability of Green, Blue, and Violet Laser Diodes
• DIO:     What's All the Fuss About?
• DIO:     Comments on Short Wavelength Laser Diodes
• DIO:     More Information on Short Wavelength Laser Diodes
• DIO: An Ophthalmic Retinal Coagulator Laser System

Diode Laser Power Supplies

• DPS: Laser Diode Drive Requirements
• DPS: Alternatives - Diode Laser Modules, Laser Pointers
• DPS:     Laser Pointers and Diode Laser Modules - The Low Stress Approach
• DPS:     Power Regulators in Laser Pointers
• DPS:     Laser Pointer with a Resistor for a Regulator
• DPS:     Substituting Batteries in Laser Pointers
• DPS:     Powering a Laser Pointer From an External Source
• DPS:     Blinking Laser Pointer or Diode Laser Module?
• DPS: Integrated Circuits for Driving Laser Diodes
• DPS:     Laser Diode Drive Chips
• DPS:     Caution About Cheap Laser Diode Drivers
• DPS:     Comments on Some Commercial Drivers and Detectors
• DPS: More on Laser Diode Characteristics and Drivers
• DPS:     Comments on Driver Education for Laser Diode Driver Designers
• DPS:     Variations in Laser Diode Monitor Photodiode Current Sensitivity
• DPS:     Response Time of Laser Diode and Monitor Photodiode
• DPS:     Power Changes With Collimating Optics
• DPS:     Using an External Photodiode for Power Control
• DPS:     Driving High Power Laser Diodes
• DPS: Testing Laser Diode Driver Circuits
• DPS:     Sam's Laser Diode Test Supply 1
• DPS:     Testing with a Laser Diode Simulator
• DPS:     Art's Laser Diode Simulator
• DPS: Very Basic Laser Diode Power Supplies
• DPS:     Bare Bones Laser Diode Power Supply
• DPS:     Battery Power for Laser Diodes
• DPS: Schematics of Laser Diode Power Supplies
• DPS:     Toshiba Discrete Laser Diode Power Supply (TO-LD1)
• DPS:     Laser Diode Power Supply 1 (RE-LD1)
• DPS:     Laser Diode Power Supply 2 (RE-LD2)
• DPS:     Laser Diode Power Supply 3 (RE-LD3)
• DPS:     Laser Diode Power Supply 4 (RE-LD4)
• DPS:     Sam's Laser Diode Driver (SG-LD1)
• DPS:     Modification of SG-LD1 for Common Cathode LD/PD (SG-LD2)
• DPS:     K3PGP's Laser Diode Driver (K3-LD1)
• DPS:     Viacheslav's Laser Diode Driver (VS-LD1)
• DPS:     Laser Diode Driver from Cheap Red Laser Pointer 1 (LP-LD1)
• DPS:     Laser Diode Driver from Cheap Red Laser Pointer 2 (LP-LD2)
• DPS:     Laser Diode Driver from Cheap Red Laser Pointer 3 (LP-LD3)
• DPS:     Laser Diode Driver from Cheap Red Laser Pointer 4 (LP-LD4)
• DPS:     Laser Diode Driver from Cheap Red Laser Pointer 5 (LP-LD5)
• DPS:     Laser Diode Driver from IR Laser Module 1 (ILM-LD1)
• DPS:     Laser Diode Driver from Red Laser Module 1 (RLM-LD1)
• DPS:     Laser Diode Driver from Green Laser Pointer 1 (GLP-LD1)
• DPS:     Laser Diode Driver from Green Laser Pointer 2 (GLP-LD2)
• DPS:     Laser Diode Driver from Green Laser Pointer 3 (GLP-LD3)
• DPS:     Laser Diode Driver from Green Laser Pointer 4 (GLP-LD4)
• DPS:     Simple Laser Diode Power Supply
• DPS:     EU38 Low Cost Constant Current Laser Diode Driver
• DPS:     Super Simple Laser Diode and TEC Driver
• DPS:     Constant Current Supply for High Power Laser Diodes
• DPS:     Sam's High Power Laser Diode Driver 1 (SG-DH1)
• DPS:     Tim's High Power Laser Diode Driver (TO-LD1)
• DPS:     Joshua's High Power Laser Diode Driver (JD-LD1)
• DPS:     Digitally Controlled Laser Diode Driver
• DPS:     Pulsed Laser Diode Drivers
• DPS:     Hewlett Packard LaserJet IIP Laser Diode Driver
• DPS:     Hewlett Packard LaserJet IIIP Laser Diode Driver
• DPS:     More Laser Diode Driver Schematics
• DPS: Communications Systems Using Diode Lasers
• DPS:     Driver Enhancements to Provide Modulation Capability
• DPS:     Diode Laser Based Line-of-Sight Communicators

Helium-Neon Lasers

• HEN: HeNe Laser Characteristics, Applications, Safety
• HEN:     Introduction to Helium-Neon Lasers
• HEN:     Some Applications of a 1 mW Helium-Neon Laser
• HEN:     HeNe Laser Safety
• HEN:     Comments on HeNe Laser Safety Issues
• HEN: Theory of Operation, Modes, Coherence Length, On-Line Course
• HEN:     Instant HeNe Laser Theory
• HEN:     Summary of the HeNe Lasing Process
• HEN:     Longitudinal Modes of Operation
• HEN:     More on Resonator Length and Mode Hopping
• HEN:     Observing Longitudinal Modes of a HeNe Laser
• HEN:     Longitudinal Mode Pulling
• HEN:     Transverse Modes of Operation
• HEN:     Multi-Transverse Mode HeNe Lasers
• HEN:     Coherence Length of HeNe Lasers
• HEN:     What is Mode Locking?
• HEN:     HeNe Laser Output Power Fluctuation During Warmup
• HEN:         Plots of HeNe Laser Power Output and Polarized Modes During Warmup
• HEN:     Intensity Stability of HeNe Lasers
• HEN:     Stabilized Single Frequency HeNe Lasers
• HEN:         Digital Control of Stabilized HeNe Lasers?
• HEN:         Iodine Stabilized HeNe Lasers
• HEN:     On-line Introductions to HeNe Lasers
• HEN: HeNe Laser Tubes, Heads, Structure, Power Requirements, Lifetime
• HEN:     Early Versus Modern HeNe Lasers
• HEN:     Structure of Internal Mirror HeNe Lasers
• HEN:     Gas Fill and Getter
• HEN:     Mirrors in Sealed HeNe Tubes
• HEN:     Mirror Reflectances for Some Typical HeNe Lasers
• HEN:     More About HeNe Dielectric Mirrors
• HEN:     Random and Linear Polarized HeNe Tubes
• HEN:     More on Mode Cycling in Short HeNe Lasers
• HEN:     HeNe Mode Flipper Observations
• HEN:     Polarization of Longitudinal Modes in HeNe Lasers
• HEN:     Power Requirements for HeNe Lasers
• HEN:     Operating Regions of a HeNe Laser Tube
• HEN:     HeNe Tube Dimensions, Drive, and Power Output
• HEN:     Highest Power HeNe Laser?
• HEN:     Boosting the Power Output of a HeNe Laser?
• HEN:     Bare HeNe Tubes and Laser Heads
• HEN:     HeNe Tube Seals and Lifetime
• HEN:     An Older HeNe Laser Tube
• HEN:     HeNe Laser Pointers
• HEN:     HeNe Lasers using External Mirrors
• HEN:     A One-Brewster HeNe Laser Tube
• HEN:     Designing a Helium-Neon Laser Tube
• HEN:     Parallel Plate HeNe Laser Tube
• HEN: Wavelengths, Beam Characteristics
• HEN:     HeNe Laser Wavelengths
• HEN:     Exact Frequency/Wavelength of HeNe Lasers
• HEN:     HeNe Laser Beam Characteristics
• HEN:     Ghost Beams From HeNe Laser Tubes
• HEN:     Other Spectral Lines in HeNe Laser Output
• HEN:     Getting Other Lasing Wavelengths from Internal Mirror HeNe Laser Tubes
• HEN:         Bruce's Notes on Getting Other Lines from Red (633 nm) HeNe Laser Tubes
• HEN:         Miscellaneous Comments on Getting Other Lines from HeNe Laser Tubes
• HEN:     About the Waste Beam from a HeNe Laser
• HEN: Magnets in High Power or Precision HeNe Laser Heads
• HEN:     Effects of Magnetic Fields on HeNe Laser Operation
• HEN:     Typical Magnet Configurations
• HEN: Internal Mirror HeNe Tubes up to 35 mW - Red and Other Colors
• HEN:     Typical HeNe Tube Specifications
• HEN:     HeNe Tubes of a Different Color
• HEN:     Determining HeNe Laser Color from the Appearance of the Mirrors
• HEN:     More on Other Color HeNe Lasers
• HEN:     Steve's Comments on Superradiance and the 3.39 um HeNe Laser
• HEN: Viewing Spectral Lines in Discharge, Other Colors in Output
• HEN:     Instant Spectroscope for Viewing Lines in HeNe Discharge
• HEN:     Other Color Lines in Red HeNe Laser Output
• HEN: Demonstration HeNe Lasers, Weatherproofing
• HEN:     Putting Together a Demonstration HeNe Laser
• HEN:     The Ultimate Demonstration HeNe Laser
• HEN:     Guidelines for a Demonstraton One-Brewster HeNe Laser
• HEN:     Weatherproofing a HeNe Laser
• HEN: Interesting, Strange, and Unidentified HeNe Lasers
• HEN:     When Your Laser Doesn't Fit the Mold
• HEN:     Segmented HeNe Tubes
• HEN:     Strange High Power HeNe Laser
• HEN:     The Aerotech LS4P HeNe Laser Tube
• HEN:     A Really Old HeNe Laser
• HEN:     The Dual Color Yellow/Orange HeNe Laser Tube
• HEN:     The Weird Three-Color PMS HeNe Laser Head
• HEN:     The Ancient Hughes HeNe Laser Head
• HEN:     The PMS/REO External Resonator Particle Counter HeNe Laser
• HEN:     The Ohmeda Raman Gas Analyzer REO One-Brewster Laser
• HEN:     The REO One-Brewster Particle Counter HeNe Laser
• HEN:     The Keuffel and Esser 71-2615 Autocollimating Alignment Laser

Commercial HeNe Lasers

• HCL: Introduction
• HCL:     Comparison Chart of Commercial Stabilized HeNe Lasers
• HCL: Melles Griot HeNe Lasers
• HCL:     Melles Griot Red HeNe Laser Tubes
• HCL:     Melles Griot Other Color HeNe Laser Tubes
• HCL:     Melles Griot Brewster and Zero Degree Window HeNe Tubes
• HCL:     Melles Griot Stabilized HeNe Lasers
• HCL:         Adjustment of 05-STP-901/SP-117A and SP-117
• HCL:         Reducing Electronics-Induced Frequency Ripple in SP-117/A Lasers
• HCL: NEC HeNe Lasers
• HCL: Siemens/LASOS HeNe Lasers
• HCL:     Siemens LGK-7638 HeNe Laser Head
• HCL:     Siemens LGK-7676 HeNe Laser Head
• HCL: Spectra-Physics HeNe Lasers
• HCL:     SP-120, 124, and 125 HeNe Laser Specifications
• HCL:     SP-107B HeNe Laser Specifications
• HCL:     Description of the SP-115 Laser Head
• HCL:     SP-117 and SP-117A Stabilized Single Frequency HeNe Lasers
• HCL:         Longitudinal Modes of the SP-117/A Laser
• HCL:         Schematics of Spectra-Physics Model 117 Controller
• HCL:         Schematics of Spectra-Physics Model 117A Controller
• HCL:         Differences Between the SP-117 and SP-117A Lasers
• HCL:     Description of the SP-117C Stabilized Single Frequency HeNe Laser
• HCL:     SP-119 Laser Head with SP-259 Exciter
• HCL:         SP-119 Laser Principles of Operation
• HCL:         SP-119 Laser Head
• HCL:         SP-259 Exciter
• HCL:         Photos of SP-119/259B System
• HCL:         SP-119/259 Connectors
• HCL:         Using the SP-259B to Control Some Other Stabilized HeNe Laser
• HCL:     Description of the SP-120 Laser Head
• HCL:     Description of the SP-122 Laser Head
• HCL:     Description of the SP-124 Laser Head
• HCL:     Description of the SP-125 Laser Head
• HCL:     Description of the SP-127 Laser
• HCL:     Description of the SP-130 Laser
• HCL:     Description of the SP-155 Laser
• HCL: Uniphase HeNe Lasers
• HCL: Research Electro-Optics Tunable HeNe Lasers
• HCL:     PMS/REO Tunable Laser Care and Feeding
• HCL:     Proposal for High Efficiency Tunable HeNe Laser
• HCL: Coherent HeNe Lasers
• HCL:     Coherent HeNe Laser Heads
• HCL:     Coherent Model 200 Single Frequency Stabilized HeNe Laser
• HCL:         Schematics of Coherent Model 200 Controller
• HCL:         Adjustment of Coherent 200
• HCL:         Replacement of HeNe Laser Tube in Coherent 200
• HCL: Teletrac/Axsys Stabilized HeNe Lasers
• HCL:     Teletrac Stabilized HeNe Laser 1
• HCL:     Axsys Stabilized HeNe Laser 1
• HCL:     Teletrac Model 150 Stabilized HeNe Laser
• HCL: Metrologic HeNe Lasers
• HCL:     Metrologic Education Lasers
• HCL:     Metrologic Military Laser Head
• HCL: Hewlett-Packard/Agilent HeNe Lasers
• HCL:     General Overview of HP Interferometry Lasers
• HCL:         Principles of Operation
• HCL:         HP/Agilent Laser Wavelength/Optical Frequency
• HCL:         Agilent Laser and Optics User's Manual
• HCL:         Obtaining an Interferometry Laser for Experimentation
• HCL:         Maximizing the Life of HP/Agilent Metrology Lasers
• HCL:         Repair of HP/Agilent Metrology Lasers
• HCL:     Notes on the HP-5500C Two Frequency HeNe Laser
• HCL:     Notes on the HP-5501 Two Frequency HeNe Laser
• HCL:         HP-5501A
• HCL:         HP-5501B
• HCL:     Notes on the HP-5508A Measurement Display
• HCL:     Notes on the HP/Agilent 5517 Two Frequency HeNe Laser
• HCL:         HP/Agilent 5517A/B/C/D
• HCL:         Agilent 5517E/F/G
• HCL:         HP/Agilent 5517 Laser Construction
• HCL:         Improving the Frequency Stability of HP/Agilent 5517 Lasers
• HCL:         Agilent 5517 Laser RS232 Communications
• HCL:         HP/Agilent 5517 Connectors
• HCL:         Common Problems with HP/Agilent 5517 Lasers
• HCL:     Notes on the HP-5518A Two Frequency HeNe Laser
• HCL:     Notes on the HP-5519 Two Frequency HeNe Laser
• HCL:     HP-10780 Optical Receivers
• HCL:     Making HP Interferometer Cables
• HCL: Laboratory for Science Stabilized HeNe Lasers
• HCL:     Laboratory for Science Model 220 Ultra Stable HeNe Laser
• HCL:     Laboratory for Science Model 200 Ultra Stable HeNe Laser
• HCL:         Schematics of Laboratory for Science Model 200 Controller
• HCL:     Some Comments From David Woolsey
• HCL: Spectral RMM355 High Power Multimode HeNe Laser
• HCL: Aerotech Synchrolase 100
• HCL:     Using the Synchrolase Controller with Other HeNe Lasers
• HCL: Zygo HeNe Lasers
• HCL:     Zygo 7701/7702 Two-Frequency HeNe Laser
• HCL:         Zygo 7701/7702 Connector Pinout
• HCL:         RS232 Communications with Zygo 7702 Lasers
• HCL:         RS232 Status Readout of Several 7702 Lasers
• HCL:         Typical Zygo 7702 Firmware Log
• HCL:     Zygo 7712/7714 Two-Frequency HeNe Laser
• HCL:         RS232 Status Readout of a 7712 Laser
• HCL:     Problems With Zygo 77XX Lasers
• HCL:     Zygo 7080 Optical Receiver
• HCL: Mark-Tech 7900 Stabilized HeNe Laser
• HCL: Optodyne HeNe Lasers
• HCL:     Optodyne L-109R Stabilized HeNe Laser Head
• HCL:     Optodyne P-108L Power Supply/Controller

HeNe Laser Testing, Adjustment, Repair

• HTR: HeNe Tube Problems and Testing
• HTR:     How Can I Tell if My Tube is Good?
• HTR:     Testing a HeNe Laser Tube Without a Compatible Power Supply
• HTR:         Quick and Dirty Universal HeNe Laser Test Power Supply
• HTR:     HeNe Tube Lases but Color of Discharge Changes Along Length of Bore
• HTR:     Starting Problems and Hard-to-Start Tubes
• HTR:     About Hard Start HeNe Tubes
• HTR:         Adding a Start Wire
• HTR:     Possible Causes of No Output with a Normal Discharge Glow
• HTR:     Possible Causes of Low Output with a Normal Discharge Glow
• HTR:     Doughnut Mode Beam from TEM00 HeNe Laser
• HTR:     Unstable or Flickering HeNe Tube
• HTR:     Sputtering or Erratic HeNe Tube
• HTR:     Alden Connector Problems and Repair
• HTR:     Cyclical Variations in Output Beam Power
• HTR:     Power Variations Due to Lack of Mirror Substrate Wedge
• HTR:     HeNe Tube Use and Life Expectancy
• HTR:     HeNe Laser Tube Gas Pressure and End-Of-Life
• HTR:     Examples of HeNe Laser Tube Bore Spectral Measurements
• HTR:     Reasons for Short HeNe Tube Lifetime
• HTR:     Brown Deposits Inside HeNe Tube Bore
• HTR:     Care of HeNe Laser Tubes
• HTR:     Tip-Off Comments
• HTR:     Troubleshooting an External Mirror HeNe Laser
• HTR:     External Mirror HeNe Laser Health Checklist
• HTR:     Can I Increase Output Power Using the Waste Beam from the HR?
• HTR:     Reducing the Output Power of a HeNe Laser
• HTR: Connections, Electrical Characteristics, Output Power
• HTR:     Identifying Connections to Unmarked HeNe Tube or Laser Head
• HTR:     Getting the HeNe Tube Out of a Laser Head Intact
• HTR:     Replacing the HeNe Tube in a Melles Griot Laser Head
• HTR:     Determining Electrical Characteristics of Unmarked HeNe Tube or Laser Head
• HTR:     Measuring the Negative Resistance of a HeNe Tube
• HTR:     Determining Output Power
• HTR:     Measuring HeNe Laser Output Power
• HTR:     Testing of Non-Red HeNe Lasers
• HTR:     Identifying the Manufacturer of a HeNe Laser Tube
• HTR: Internal Mirror HeNe Tube Optics
• HTR:     Cleaning HeNe Optics
• HTR:     Why You Shouldn't Touch the Mirrors or Mirror Mounts
• HTR:     Damage to Mirror Coatings of Internal Mirror Laser Tubes
• HTR:         Sputtering Overcoat or Debris on Mirrors
• HTR:         Mirror Coating Vanishes
• HTR:         HeNe Laser Torture 1
• HTR: Problems with Mirror Alignment
• HTR:     Checking and Correcting Mirror Alignment of Internal Mirror Laser Tubes
• HTR:     Minor Problems with Mirror Alignment
• HTR:     Quick Check of Mirror Alignment
• HTR:     Minor Mirror Alignment Procedure
• HTR:     Means of Adjusting HeNe Tube Mirrors
• HTR:     Major Problems with Mirror Alignment
• HTR:     Walking the Mirrors in Internal Mirror Laser Tubes
• HTR:     Simple Adjustable Optics Platform
• HTR:     Sam's Eazalign(tm) Internal Mirror Laser Tube Alignment Platform
• HTR:     Home-Built Three-Screw Mirror Adjusters for Internal Mirror Tubes
• HTR:     Initial Alignment and Tweaking of Three-Screw Adjusters
• HTR:     Sam's Instalign(tm) Procedure for Internal Mirror Tube Mirror Alignment
• HTR:     Sam's Approach for Aligning an External Mirror Laser with the Mirrors in Place
• HTR:     Quick Course in Fine Tuning a Large Frame HeNe Laser
• HTR:     Daniel's Methods for Internal Mirror HeNe Tube Mirror Alignment
• HTR:         The Basic Procedure
• HTR:         Now for the Quick and Easier Short Cut
• HTR:         Notes on Viewing the Spot
• HTR:         Notes on the Alignment Jig
• HTR:     Daniel's Method for Aligning External Mirror Lasers
• HTR:     Flavio's Comments on HeNe Tube Mirror Alignment
• HTR:     Rich's Procedure for External Mirror HeNe Laser Alignment
• HTR:     Dave's General External Mirror Alignment
• HTR:     Dave's Quickie External Mirror Alignment Technique for the SP-120
• HTR:     Dave's Preferred External Mirror Alignment Technique for Long Lasers
• HTR:     Cat's Eye Mirror for Hassle-Free Alignment
• HTR:     Mirror Alignment with just an Optical Power Meter
• HTR:     Inconsistent Behavior of HeNe Laser Alignment
• HTR:     Cleaning and Alignment of the Spectra-Physics 907 HeNe Laser
• HTR:         Sam's Procedure and Comments
• HTR:         Michael's Procedure
• HTR: Collimation of HeNe Lasers
• HTR:     Reasons for Poor Collimation
• HTR:     Improving the Collimation of a HeNe Laser with a Beam Expander
• HTR: Beam Polarization of HeNe Lasers
• HTR:     Typical Polarization Characteristics and Problems
• HTR:     Determining if a Laser Tube is Linearly Polarized
• HTR:     Unrandomizing the Polarization of a Randomly Polarized HeNe Tube
• HTR:         Magnets and Mode Plots
• HTR:     Magnet Tests with a Polarized HeNe Laser Tube
• HTR: Repairing Leaky or Broken HeNe Tubes
• HTR:     Gas Fill Problems with HeNe Tubes
• HTR:     Rejuvenating HeNe Tubes
• HTR:         Helium Soaking
• HTR:         Reactivating the Getter
• HTR:     Repairing and Refilling a HeNe Tube at Home?
• HTR:     Regrinding or Otherwise Compensating for a Chipped Mirror
• HTR:     Using a Microwave Oven to Evaluate and Revive HeNe Laser Tubes
• HTR: Reports from Sam's HeNe Laser Hospital
• HTR:     Sam Succeeds in Aligning a LONG HeNe Tube
• HTR:     Repairing the Northern Lights Tube
• HTR:     Strengthening a Weak Siemens HeNe Tube
• HTR:     Attempting to Revive Some Soft-Seal HeNe Tubes
• HTR:         Followup Experiments with a Low Power RF Source on Patient #3
• HTR:     Treatement for the Yellow HeNe Laser Tube with a Warped Bore
• HTR:     Reviving a Spectra-Physics Model 130B Antique Laser
• HTR:     Restoration of a Spectra-Physics Model 130B Antique
• HTR:     Two Melles Griot HeNe Laser Heads with Terminal Sputtering Disease
• HTR:     Four Melles Griot HeNe Laser Heads with Broken Bores
• HTR:     Spectra-Physics Model 120 HeNe Laser Head with Terminal Gas Leakage Disease
• HTR:     Spectra-Physics Model 120 HeNe Laser Head with Moderate Gas Leakage Disease
• HTR:     Spectra-Physics Model 907 With No Output
• HTR:     Melles Griot GreNe with No Output
• HTR:     Melles Griot Long GreNes with No Output
• HTR:     Melles Griot Yellow Laser Head With No Output
• HTR:     Melles Griot Yellow Laser Head With Variable Output
• HTR:         Output Power Plots of Yellow HeNe Laser Heads
• HTR:         External Mirror Therapy for Variable 05-LYR-171 Yellow Laser Head
• HTR:         Assorted Red Laser Heads With Variable Waste Beam Power
• HTR:     Case Study of 145 Melles Griot 05-LHR-640 HeNe Laser Tubes
• HTR:     Some Hughes 3184H Semi-Antique HeNe Laser Heads
• HTR:         Hughes 3184H HeNe Laser Plasma Tube Test Rail
• HTR:     Hughes 3176H HeNe Laser Head with 3509H Power Supply with Low Output
• HTR:     Transplant Surgery for Two Sick Spectra-Physics Model 117 Stabilized HeNe Laser Heads
• HTR:         SP-117 HeNe Laser Tube Replacement Procedure
• HTR:     Melles Griot 05-LHP-925 Won't Start
• HTR:     Spectra-Physics Model 155 Won't Start
• HTR:     Two Tortured LASOS LGK7512P Yellow HeNe Laser Headss
• HTR:     REO One-Brewster Tube - No Lasing
• HTR:     REO One-Brewster Tube - Slightly Low Output
• HTR:     REO One-Brewster Tube - Very Low Output
• HTR:     PMS One-Brewster Tube - No Lasing
• HTR:     Aerotech LS4P HeNe Laser Tube - No Lasing

  ---

  
  

  HeNe Laser Power Supplies

  • HPS: Requirements, Types, Choices, Build or Buy, Safety
  • HPS:     Basic HeNe Laser Power Supply Considerations
  • HPS:     So Many Choices
  • HPS:     SAFETY when Dealing with HeNe Laser Power Supplies
  • HPS:     Adding a Bleeder Resistor to a HeHe Laser Power Supply
  • HPS: Construction Alternatives, Organization
  • HPS:     Constructing Your Own Power Supply
  • HPS:     Basic HeNe Laser Power Supply Organization
  • HPS:     RF or Microwave Power Supply for HeNe Laser?
  • HPS:     Neon Tube Power Supply for HeNe Laser?
  • HPS: Using Commercially Available Power Supplies
  • HPS:     Powering Your HeNe Tube the Easy Way
  • HPS:     Compatibility Checklist for HeNe Laser Power Supply Bricks
  • HPS:         Melles Griot HeNe Laser Power Supplies
  • HPS:         Laser Drive HeNe Laser Power Supplies
  • HPS:         Hughes HeNe Laser Power Supplies
  • HPS:     Common Color Coding of Power Supply Bricks
  • HPS:         Sample Color Coding of AC Input Power Supply Bricks
  • HPS:         Sample Color Coding of DC Input Power Supply Bricks
  • HPS:     Importance of Fusing Power Supply Bricks
  • HPS:     Adapters for DC HeNe Laser Power Supply Bricks
  • HPS:     Examples of the Use of Commercial Power Supply Bricks
  • HPS:         1 mW HeNe Laser Powered by 12 VDC, 1 A Wall Adapter
  • HPS:         2 mW HeNe Laser Using AC Line Operated Power Supply Brick
  • HPS:         Lab Style HeNe Laser Power Supply Using Power Supply Brick
  • HPS:     Initial Testing of HeNe Laser Power Supply Bricks
  • HPS:     HeNe Laser Power Supplies in Series or Parallel?
  • HPS:     Boosting the Current of a HeNe Laser Power Supply
  • HPS:     Reducing the Current of a HeNe Laser Power Supply
  • HPS:     Using a HeNe Laser Power Supply for Other Applications
  • HPS: Ballast Resistors, Function, Selecting
  • HPS:     What is the Purpose of the Ballast Resistor?
  • HPS:     Locations of the Ballast Resistance
  • HPS:     Selecting the Ballast Resistor Using Your HeNe Tube
  • HPS:     Selecting the Ballast Resistor Using a Dummy Load
  • HPS: Determining Characteristics, Fixed Current Considerations
  • HPS:     Determining the Compliance Range of a Power Supply
  • HPS:     Fixed Current Power Supply Considerations
  • HPS: Power Supply Measurements, Testing, Repair
  • HPS:     Making Measurements on HeNe Laser Power Supplies
  • HPS:     Ballast Resistor Selector and Meter Box
  • HPS:     Testing a HeNe Laser Power Supply
  • HPS:     HeNe Laser Power Supply Repair
  • HPS:     Replacing a Regulator Stack with Resistors

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  HeNe Laser Power Supply Design

  • HPD: AC Line Operated and Inverter Types, Notes on Notation
  • HPD:     Circuits for Keeping a HeNe Laser Tube Happily Fed
  • HPD:     AC Line Operated Versus Inverter Based Power Supplies
  • HPD:     Notation used in HeNe Laser Power Supply Diagrams and Schematics
  • HPD:     AC Line Operated Power Supplies
  • HPD:     AC Input Circuitry for HeNe Laser Power Supplies
  • HPD:     Boosting the Output of a Transformer with Multiple Secondary Windings
  • HPD:     Inverter Type Power Supplies
  • HPD:     Switchmode HeNe Laser Power Supplies Using Digital Control
  • HPD: High Voltage Components, Construction Issues
  • HPD:     Standard and Custom HV Rectifiers
  • HPD:     Standard and Custom HV Capacitors
  • HPD:     Series Banks of Capacitors
  • HPD:     High Voltage Resistors
  • HPD:     High Voltage Transformers
  • HPD:     Power Supply Construction Considerations
  • HPD:     Separating Power Supply and HeNe Tube or Laser Head
  • HPD: Starters - Voltage Multiplier, Pulse, Inverter, Piezo
  • HPD:     Starting Circuits for HeNe Laser Tubes
  • HPD:     Voltage Multiplier Starting Circuits
  • HPD:     Voltage Multiplier Operation
  • HPD:     Color TV or Monitor Voltage Multiplier
  • HPD:     Starting Circuits Using Pulse or Flyback Transformers
  • HPD:     Pulse Starting Circuit - Trigger Transformer with Isolated HV Winding
  • HPD:     Isolated Pulse Starting Circuits
  • HPD:     Pulse Starting Circuit Using Small Flyback Transformer
  • HPD:     HeNe Starter Using Electronic Ignition (or Other Similar) Modules
  • HPD:     HeNe Starter Using Electronic Air Cleaner HV Module
  • HPD:     Inverter Based Starters
  • HPD:     Inverter Based Starter Examples
  • HPD:     Sam's Super-Starter(tm)
  • HPD:     Piezo Impulse Starting Circuits
  • HPD:     RF or Microwave Starters
  • HPD: Current Regulators
  • HPD:     Regulation Requirements for HeNe Laser Power Supplies
  • HPD:     Low-Side Post-Regulator
  • HPD:     High Compliance Cascade Regulator
  • HPD:     Increasing Linear Regulator Current
  • HPD:     Simple Shunt Regulator
  • HPD:     External Regulator for Inverter Power Supply
  • HPD:     Inverter Switchmode Regulator Controller
  • HPD:     HeNe Laser Power Supply Current Limit Protection
  • HPD:     Reducing the Ripple and Noise in a HeNe Laser Power Supply
  • HPD:         Reducing Ripple and Noise in a HeNe Laser Power Supply with a Linear Regulator
  • HPD:         Reducing Ripple and Noise in a HeNe Laser Power Supply with a Switchmode Regulator<
  • HPD: Modulation, Demodulation, Pulse Drive
  • HPD:     Modulation of HeNe Lasers
  • HPD:     Electronic Modulation of HeNe Lasers
  • HPD:     Modulation Using an Audio or Power Transformer
  • HPD:     Modulation Using a High Voltage NPN Transistor
  • HPD:     Modulation Using a High Voltage PNP Transistor
  • HPD:     Modulation Using a Vacuum Tube
  • HPD:     Simple AM Demodulation of a HeNe Beam
  • HPD:     Pulsing a HeNe Laser for High Power?
  • HPD:     Pulse Type Drive and Modulation of HeNe Tubes
  • HPD: Powering Multple HeNe Tubes or Discharges
  • HPD:     Driving Multiple HeNe Tubes (or Discharges) from a Single Power Source
  • HPD:     Driving Multiple HeNe Tubes or One with a Center-Tapped Discharge Tube
  • HPD:     Driving Multiple HeNe Tubes with an Exposed Capillary

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  Complete HeNe Laser Power Supply Schematics

  • HSC: Schematics for Power Supplies of All Sizes
  • HSC:     HeNe Laser Power Supply Selection Guide
  • HSC: Introduction to AC Line Operated Power Supply Schematics
  • HSC: Commercial AC Line Operated Power Supplies
  • HSC:     Edmund Scientific HeNe Laser Power Supply (ES-HL1)
  • HSC:     Laboratory for Science Model 200 Laser Power Supply (LS-200)
  • HSC:     Laboratory for Science Model 220 Laser Power Supply (LS-220)
  • HSC:     Metrologic Model 360 HeNe Laser Power Supply
  • HSC:     Metrologic Model 420 HeNe Laser Power Supply (ML-420)
  • HSC:     Metrologic Model ML620 HeNe Laser Power Supply (ML-620)
  • HSC:     Metrologic Model ML660 HeNe Laser Power Supply (ML-660)
  • HSC:     Metrologic Model ML920 HeNe Laser Power Supply (ML-920)
  • HSC:     Spectra-Physics Model 130 HeNe Laser Power Supply (SP-130)
  • HSC:     Spectra-Physics Model 132/132M HeNe Laser Power Supply (SP-132)
  • HSC:     Spectra-Physics Model 155 HeNe Laser Power Supply (SP-155)
  • HSC:     Spectra-Physics Model 233/233M HeNe Laser Power Supply (SP-233)
  • HSC:     Spectra-Physics Model 234 HeNe Laser Power Supply (SP-234)
  • HSC:     Spectra-Physics Model 235 HeNe Laser Power Supply (SP-235)
  • HSC:     Spectra-Physics Model 247 HeNe Laser Power Supply (SP-247)
  • HSC:     Spectra-Physics Model 248 HeNe Laser Power Supply (SP-248)
  • HSC:     Converting the SP-248 into a Low Ripple Protected HeNe Laser Power Supply
  • HSC:     Spectra-Physics Model 249 HeNe Laser Power Supply (SP-249)
  • HSC:     Scientifica-Cook Model 760 HeNe Laser Power Supply
  • HSC:     Jodon HeNe Laser Power Supply 1 (JD-PS1)
  • HSC:     Aerotech Model PS0 HeNe Laser Power Supply (AT-PS0)
  • HSC:     Aerotech Model PS1 HeNe Laser Power Supply (AT-PS1)
  • HSC:         Enhancements to AT-PS1
  • HSC:     Aerotech Model PS2B HeNe Laser Power Supply (AT-PS2B)
  • HSC:     Aerotech Model PS2A-X HeNe Laser Power Supply (AT-PS2A-X)
  • HSC:     Spectra-Physics Model 255 Exciter (SP-255)
  • HSC:         Enhancements to SP-255
  • HSC:     Spectra-Physics Model 256 Exciter (SP-256)
  • HSC:     Spectra-Physics Model 207 Exciter (SP-207)
  • HSC:     Spectra-Physics Model 261A Exciter (SP-261A)
  • HSC:     HeNe Laser Power Supply from LaserDisc Player 1 (LP-HL1)
  • HSC:     HeNe Laser Power Supply from LaserDisc Player 2 (LP-HL2)
  • HSC:     Coherent Model 80 HeNe Laser Power Supply (CO-80)
  • HSC:     Halted Specialties HeNe Laser Power Supply 1 (HS-PS1)
  • HSC:     Spectra-Physics Model 200 Exciter (SP-200)
  • HSC: Sam's Line Powered HeNe Laser Power Supplies
  • HSC:     Sam's Small Line Powered HeNe Laser Power Supply (SG-HL1)
  • HSC:         Notes for Sam's Small Line Powered HeNe Laser Power Supply (SG-HL1)
  • HSC:     Sam's Mid-Size Line Powered HeNe Laser Power Supply (SG-HL2)
  • HSC:         Notes for Sam's Mid-Size Line Powered HeNe Laser Power Supply (SG-HL2)
  • HSC:     Sam's Ultrabeam(tm) Line Powered HeNe Laser Power Supply (SG-HL3)
  • HSC:         Notes for Sam's Ultrabeam(tm) Line Powered HeNe Laser Power Supply (SG-HL3)
  • HSC:     AC Line Front-End Made From Hi-Pot Tester
  • HSC: Other AC Line Powered HeNe Laser Power Supply Schematics
  • HSC:     Kim's Mid-Size Line Powered HeNe Laser Power Supply (KC-HL1)
  • HSC:         Operating Voltage for Kim's Mid-Size HeNe Laser Power Supply
  • HSC:         Starter for Kim's Mid-Size HeNe Laser Power Supply
  • HSC:     Tony's Large Frame HeNe Laser Power Supply (TF-HL1)
  • HSC: Introduction to Inverter Based Power Supply Schematics
  • HSC: Simple Inverter Type Power Supply for HeNe Laser
  • HSC:     Simple Inverter Type Power Supply Design Options
  • HSC:         Notes on Simple Inverter Type Power Supply for HeNe Laser
  • HSC:     Starting Circuit for Simple Inverter Type Power Supply for HeNe Laser
  • HSC:         Notes on Voltage Multiplier Starting Circuit
  • HSC: Commercial Inverter Driven Power Supplies
  • HSC:     HeNe Laser Inverter Power Supply Using PWM Controller IC (IC-HI1)
  • HSC:         Notes on IC-HI1 PWM Controller
  • HSC:         Notes on IC-HI1 Inverter
  • HSC:     HeNe Laser Power Supply from Industrial Barcode Scanner (IC-HI2)
  • HSC:         Notes on IC-HI2
  • HSC:     HeNe Laser Power Supply from HeNe Laser Pointer (IC-HI3)
  • HSC:         Basic Description of IC-HI3
  • HSC:         IC-HI3 Inverter and Voltage Multiplier
  • HSC:         IC-HI3 PWM Controller
  • HSC:         Rewinding the Inverter Transformer
  • HSC:     Electronic Goldmine HeNe Laser Power Supply (EG-LPS1)
  • HSC:         Basic Description of EG-LPS1
  • HSC:     Metrologic Model ML600 HeNe Laser Power Supply (ML-600)
  • HSC:         Basic Description of ML-600
  • HSC:         ML-600 Inverter and Voltage Multiplier
  • HSC:     Metrologic Model ML800 HeNe Laser Power Supply (ML-800)
  • HSC:         ML-800 Principles of Operation
  • HSC:     Metrologic Model ML811 HeNe Laser Power Supply (ML-811)
  • HSC:         Basic Description of ML-811
  • HSC:     Metrologic Model ML855 HeNe Laser Power Supply (ML-855)
  • HSC:         Basic Description of ML-855
  • HSC:     Metrologic Model ML869 HeNe Laser Power Supply (ML-869)
  • HSC:         Basic Description of ML-869
  • HSC:         ML-869 Audio and Video Modulator
  • HSC:     Hughes HeNe Laser Power Supply for the Model 3184H Laser
  • HSC:     Spectra-Physics Model 253A Exciter (SP-253A)
  • HSC:     Melles Griot Lab Style HeNe Laser Power Supply
  • HSC:     Yahata Model HVR-C234H-1 HeNe Laser Power Supply (YA-234)
  • HSC:     Laser Drive Power Supply From Barcode Scanner (LD-BS1)
  • HSC:     Melles Griot 05-LPM-829-045 Power Supply
  • HSC:     Heathkit Modulated HeNe Laser Power Supply (HK-HI1)
  • HSC:     VMI PS 373 HeNe Laser Power Supply (VMI-373)
  • HSC: Sam's Inverter Driven HeNe Laser Power Supplies
  • HSC:     Sam's Inverter Driven HeNe Laser Power Supply 1 (SG-HI1)
  • HSC:     Sam's Inverter Driven HeNe Laser Power Supply 2 (SG-HI2)
  • HSC:     Sam's Inverter Driven HeNe Laser Power Supply 3 (SG-HI3)
  • HSC:     Sam's Inverter Driven HeNe Laser Power Supply 4 (SG-HI4)
  • HSC:     Sam's Modular HeNe Laser Power Supply 1 (SG-HM1)
  • HSC:         SG-HM1 Descripton and Schematic
  • HSC:         SG-HM1 Printed Circuit Board Layout
  • HSC:     Sam's Modular HeNe Laser Power Supply 2 (SG-HM2)
  • HSC:         SG-HM2 Descripton and Schematic
  • HSC:         Modifying SG-HM2 for Higher Power HeNe Laser Tubes
  • HSC:         SG-HM2 Inverter Transformer
  • HSC:         SG-HM2 Transformer Construction
  • HSC:         SG-HM2 Printed Circuit Board Layout
  • HSC: Other Inverter Driven HeNe Laser Power Supplies
  • HSC:     Kim's Flyback Based HeNe Laser Power Supply (KC-HI1)
  • HSC:         Optimizing Drive and Power Output
  • HSC:     Another Inverter Driven HeNe Power Supply 1 (AN-HI1)
  • HSC:     Donna's Computer Controlled HeNe Laser Power Supply (DP-HI1)
  • HSC: Other HeNe Laser Power Supply Circuits on the Web

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  Argon/Krypton Ion Lasers

  • ARG: Introduction, Acknowledgement, Ar/Kr Ion Laser Safety
  • ARG:     Introduction to Ion Lasers
  • ARG:     Equipment Using Argon Ion Lasers
  • ARG:     Mix and Match Ion Laser Components
  • ARG:     On-line Introductions to Argon Ion Lasers
  • ARG:     Acknowledgement for Ar/Kr Ion Laser Information
  • ARG:     Argon/Krypton Ion Laser Safety
  • ARG:     Additional Comments on Argon/Krypton Ion Laser Safety
  • ARG: Basic Characteristics, Other Information Sources
  • ARG:     Basic Characteristics of 'Small' Argon Ion Lasers
  • ARG:     Ar/Kr Ion Laser Tube Electrical Characteristics
  • ARG:     Why Does an Ion Laser Tube use a Heated Cathode?
  • ARG:     Ion Laser Bore Temperature, Materials, and BeO Warning
  • ARG:     How Tube Dimensions (and Other Factors) Affect Output Power
  • ARG:     Photos and Diagrams of Some Air-Cooled Argon Ion Tubes
  • ARG:     Higher Power Ion Laser
  • ARG:     Compact Low Power Ion Laser?
  • ARG:     About Small Air-Cooled Ion Lasers with Huge Power Ratings
  • ARG:     Other Types of Ion Lasers
  • ARG:     More Information on Argon/Krypton Ion Lasers
  • ARG:     Ion Laser System Patents
  • ARG: Wavelengths, Spectra, White Light Lasers
  • ARG:     Argon Ion and Krypton Ion Laser Wavelengths
  • ARG:     Effects of Optics on Laser Performance
  • ARG:     Single-Line and Multiline Output
  • ARG:     Etalons for Ion Lasers
  • ARG:     More Comments on Argon/Krypton Spectral Lines
  • ARG:     White Light Lasers
  • ARG:     Effect of Tube Pressure on White Light Ar/Kr Ion Laser Spectral Balance
  • ARG:     Ion Laser Dielectric Mirrors
  • ARG:     Comments on Brewster Window Seals
  • ARG:     Comparison of Power with Single-Line Versus Multiline Optics
  • ARG:     Substituting Optics Between Lasers
  • ARG:     Which Optics to Use on a Large-Frame Ion Laser
  • ARG:     How to Get 528 nm in an Argon Ion Laser
  • ARG: Ion Laser Power Output and Efficiency
  • ARG:     Expected Output Power from Surplus or Previously Owned Ion Lasers
  • ARG:     Determining the Power Output of an Ion Laser
  • ARG:     Efficiency of Argon Ion Lasers
  • ARG:     On the Abysmal Efficiency of Ion Lasers
  • ARG: A Typical Small Air-Cooled Argon Ion Laser - the ALC-60X/Omni-532
  • ARG:     Description of a Typical Air-Cooled Argon Ion Laser
  • ARG:     Photos of the Major Components of the ALC Model 60X Laser Head
  • ARG:     Physical Description of ALC-60X Laser Head
  • ARG:     Steve's Favorite Questions About the ALC-60X/Omni-532
  • ARG:     The Intracavity Prism
  • ARG:     Typical Behavior of Wavelength Tuning Assembly
  • ARG:     ALC-60X Tube Voltage and Life Expectancy
  • ARG:     About Those Extra Electrodes on Some ALC-60X Tubes
  • ARG:     Comparison of Argon and Krypton Ion Tube Characteristics
  • ARG:     The Larger Omni-543 Laser Head with Omni-16
  • ARG:     Converting a Small Air-Cooled Argon Ion Laser to Whitelight
  • ARG:     Comments on Omni White-Light Conversion
  • ARG:     Getting the Green Out of a Melles Griot 643-RYB-A01
  • ARG:     Boosting Air-Cooled Ion Tube Power Using Magnets?
  • ARG:     Power Limitation of Air-Cooled Tubes
  • ARG:     Notes on National Laser Corporation 60X Replacement Tubes
  • ARG:     Comments on Conversion to Single Frequency Operation
  • ARG:     Types of Air-Cooled Argon Ion Laser Tubes
  • ARG:     Comments on the ALC-60 Series Lasers
  • ARG: Typical Small Water-Cooled Argon Ion Lasers - the Lexel Laser Models 75 and 88
  • ARG:     Description of a Typical Water-Cooled Argon Ion Laser
  • ARG:     Photos of the Major Components of the Lexel-75 Laser Head
  • ARG:     Lexel-75 Tube Voltage Versus Current
  • ARG:     Lexel-88 Tube Voltage Versus Current and Other Information
  • ARG:     Notes on Availability of These Lasers and Alternatives
  • ARG:     Comments on Lexel-88 Starting Procedure and Behavior
  • ARG:     Comments on Regassing Lexel White Light Ar/Kr Ion Lasers
  • ARG:     Maximizing Tube Life, Plasma Oscillations, Compatibility
  • ARG:     Tips for Maximizing Ion Laser Tube Life
  • ARG:     Idle or Shut Down Completely?
  • ARG:     Plasma Oscillations and Other Instabilities in Ion Lasers
  • ARG:     Compatibility Issues of ALC-60X and NEC Laser Heads and Power Supplies
  • ARG:     Powering Ion Laser Tubes that have Wet Anodes<
  • ARG: When You Really Want an Ion Laser, Great Deals, and Other Tid-Bits
  • ARG:     Ross's Quest for an Argon Ion Laser
  • ARG:     Deal of the Week?
  • ARG:     A Strange Small Argon Ion Tube
  • ARG: Descriptions of Assorted Ar/Kr Ion Lasers (Systems Related)
  • ARG:     The Really Strange Carson Dual Tube Ion Laser
  • ARG:     Lexel-95/Dye Laser Hybrid
  • ARG:     Spectra-Physics-161 Laser - More or Less
  • ARG:     Spectra-Physics-2010 Laser Head
  • ARG:     Albion Instruments Anesthesia Analyzer
  • ARG:     Power-On-Demand Medical Laser Conversion?
  • ARG:     HGM Argon Ion Medical Lasers

  ---

  
  

  Ar/Kr Ion Laser Testing, Maintenance, Repair

  • ATR: Introduction, Safety, Related Information
  • ATR:     Ion Laser Tender Loving Care
  • ATR:     Safety Issues When Troubleshooting Ion Lasers<
  • ATR:     Web-Site with Related Information
  • ATR: Tube Life, Effects of Abuse, Failure Modes, Rebuilding
  • ATR:     Argon/Krypton Ion Laser Tube Life
  • ATR:     Maximizing Ion Tube Lifetime
  • ATR:     What Happens if the Tube is Run with Excessive Current (>10 A)?
  • ATR:     Filament and Discharge Voltages for Some Typical Air-Cooled Ion Lasers
  • ATR:     Failure Modes of Ar/Kr Ion Tubes
  • ATR:     Effects of Contamination on Ion Tube Life and Performance
  • ATR:     Getters in Ion Laser Tubes
  • ATR:     Notes on Gas Pressure and Effects on Ion Tube Performance
  • ATR:     More on Ion Laser Tube Cathode Characteristics
  • ATR:     Comments on Filament Temperature and Thermal Cycling
  • ATR:     Unsagging a Sagging Filament
  • ATR:     About the High Cost of Refills and Refurbs
  • ATR:     Ion Tube Rebuilding in Your Basement?
  • ATR:     Removing Contamination on the Inside of Brewster Windows
  • ATR: Cyonics Tube, Testing, Hard-to-Start Tubes, Tube and Igniter Problems
  • ATR:     Cyonics Argon Ion Tube
  • ATR:         Cyonics/Uniphase Mirror Alignment
  • ATR:     Testing a Small Ar/Kr Ion Tube
  • ATR:         Preliminary Tests
  • ATR:         Initial Power Tests
  • ATR:         The Ultimate in a Bare Bones Test Supply
  • ATR:     Carl's Notes on Testing an Ion Laser Tube for the First Time
  • ATR:     High Pressure Tube Versus Power Supply Problems
  • ATR:     Hard-to-Start Ar/Kr Ion Tubes - Outgassing and Keeping Your Laser Healthy
  • ATR:     Notes on NEC Argon Ion Tubes
  • ATR:     Comments on Ion Tube Starting
  • ATR:     More on Oudin Coils
  • ATR:         BD-10 Anatomy and Repair
  • ATR:     Home-built Substitute for Oudin Coil
  • ATR:     Igniter Problems and Troubleshooting
  • ATR:     More on Diagnosing "Tick-Tick-Tick" Problems
  • ATR:     Mike's Omni-543 Revival Saga
  • ATR:     Comments on Ion Laser Filament Testing
  • ATR:     Any Hope for an Ar/Kr Ion Tube with a Broken or Damaged Filament?
  • ATR:     Running a High Power Ion Tube in Your Basement
  • ATR:     Replacements for NEC GLG Argon Ion Laser Tubes
  • ATR: Ar/Kr Ion Laser Lasing Problems
  • ATR:     What Could Prevent an Internal Mirror Tube from Lasing?
  • ATR:     Laser Beam Varies in Intensity
  • ATR:     Laser Beam Shifts Position Erratically
  • ATR: Tips for Potential Ar/Kr Ion Lasers Enthusiasts
  • ATR:     Caveat Emptor
  • ATR:     Argon Laser Anonymous
  • ATR: Cleaning of Laser Optics
  • ATR:     What's the BIG Deal About Cleaning?
  • ATR:     Make Sure Your Mirrors Aren't Going to Dissolve!
  • ATR:     Chemicals and Supplies
  • ATR:     Optics Cleaning Procedure
  • ATR:         Wet and Wipe Method
  • ATR:         Drop and Drag Method
  • ATR:         Links to Other Similar Methods
  • ATR:         Polymer Based Optics Cleaning
  • ATR:         Vapor Phase Optics Cleaning
  • ATR:         Removing Dielectric Coatings?
  • ATR: External Mirror Laser Cleaning and Alignment Techniques
  • ATR:     Lasers for Which These Procedures Apply
  • ATR:     Required Equipment and Other Stuff
  • ATR:     The Alignment Jig
  • ATR:     Initial Bore Alignment
  • ATR:     Cleaning the Optics
  • ATR:     Aligning the Rear Mirror
  • ATR:     Aligning the Front Mirror
  • ATR:     Powering up the Argon - Final Alignment
  • ATR:     Walking the Mirrors in External Mirror Lasers
  • ATR:     Peaking a Multi-Line Argon Ion Laser
  • ATR:     How Laser Manufacturers Align Lasers
  • ATR:     Caution when Adjusting Large-Frame Lasers
  • ATR:     Aligning a Coherent I-90 Argon Ion Laser
  • ATR:     Aligning a Trimedyne 900 Argon Ion Laser
  • ATR: Additional Alignment Information
  • ATR:     Markus's Comments on Argon Laser Alignment
  • ATR:     Stephen's Tips for Mirror Alignment Without Using an Alignment Laser
  • ATR:     Multi-line Tuning
  • ATR:     Disks for Laser Alignment
  • ATR:     More on Mirror Adjustments
  • ATR:     Quick Alignment of Large-Frame Lasers on Optical Tables
  • ATR:     Optical Monitoring to Assist in Mirror Alignment
  • ATR: Maintenance, Alignment, and Modifications of the ALC-60X Laser Head
  • ATR:     ALC-60X Hands-On
  • ATR:     Initial Inspection When You Get Your First ALC-60X
  • ATR:     Setup and Testing of a Newly Acquired ALC-60X
  • ATR:     General Cleaning of the ALC-60X
  • ATR:     ALC-60X Desiccant Bakeout Procedure
  • ATR:     ALC-60X Optics Cleaning
  • ATR:     ALC-60X Mirror Alignment Procedure
  • ATR:         Step 1: Setting Up the 60X and Alignment Laser
  • ATR:         Step 2: Centering the Tube
  • ATR:         Step 3: Aligning the HR-End
  • ATR:         Step 4: Aligning the OC-End
  • ATR:         Step 5: Hot Flashes
  • ATR:         Step 6: Fine Tuning
  • ATR:     Steve's Comments on Beam Optimization of ALC-60X Lasers
  • ATR:     Increasing Power Output of ALC-60X Lasers
  • ATR:     Using an Oudin Coil to Start a 60X Tube
  • ATR:     Refilling ALC-60X Tubes?
  • ATR:     Steve's Comments on ALC-60X Cooling, Line Drop Out, and Old or Rebuilt Tubes
  • ATR:     Dave's Comments on Testing and Tweaking of Omni-532/ALC-60X Laser Heads with Omni-150 Power Supplies
  • ATR:     Dave's Comments on Optics Cleaning and Tube Swapping
  • ATR:     Swapping Mirrors in ALC-60X Lasers
  • ATR: Maintenance Information on Specific Ion Lasers
  • ATR:     Notes on the American Laser Model 68 Argon Ion Laser (ALC-68)
  • ATR:     Spectra-Physics Argon Ion Laser (SP-162) - Discussion
  • ATR:     Britt Pulsed Argon Ion Laser
  • ATR:         Description and Comments for Model 3260
  • ATR:         Frank's Acquisition of a Britt Ion Laser
  • ATR:         Discussion on Gas Adjustment
  • ATR:     Comments on Laser Ionics Ion Lasers
  • ATR:     Tests of Some JDS Uniphase/Cyonics Argon Ion Lasers
  • ATR:     Omni-543 and Omni-643 Laser Tube Voltage
  • ATR:     Discussion about Ion Laser Tube Condition and Operation
  • ATR:     Steve's Search for 752 nm
  • ATR:     Dave's Four Color RYGB ILT Laser Saga

  ---

  
  

  Ar/Kr Ion Laser Power Supplies

  • APS: Introduction, Related Information, Acknowledgement, Safety
  • APS:     Basic Ar/Kr Ion Laser Power Supply Considerations
  • APS:     Web Site with Related Information
  • APS:     Acknowledgement
  • APS:     SAFETY When Dealing with Ar/Kr Ion Laser Power Supplies
  • APS: Types, Alternatives to Home-Built System
  • APS:     Not Quite as Many Choices
  • APS:     Arc Lamp Power Supply for Ion Laser?
  • APS:     Using Common SMPSs to Construct an Ion Laser Power Supply
  • APS:     Steve's Comments on Switchmode Power Supplies and Phase Converters
  • APS:     So You Still Want to Build an Ar/Kr Ion Laser Power Supply?
  • APS: Organization of Linear, Switchmode, Inverter Types, Foreign Power
  • APS:     Typical Organization of Ar/Kr Power Supply with Series Regulator
  • APS:     Typical Organization of Inverter Type Ar/Kr Power Supply
  • APS:     Ion Laser Power Supply on Foreign Power
  • APS: Making Measurements and Power Supply Testing
  • APS:     Measurements of Current and Voltage in Ar/Kr Ion Laser Power Supplies
  • APS:     Initial Power Supply Testing
  • APS:     Testing with a Dummy Load
  • APS:     Testing with an Inexpensive Laser Head
  • APS: Ion Laser Power Supply Repair
  • APS:     Typical Power Supply Failures and Possible Causes
  • APS:     Troubleshooting Check List
  • APS:     Troubleshooting Where There is No Beam at All
  • APS:     Troubleshooting Where There is No or Low Output
  • APS:     Troubleshooting Linear Pass-Banks
  • APS:     Matching Pass-Bank Devices
  • APS:     Omni-150P Ar/Kr Ion Laser Power Supply Repair Saga
  • APS: Pulsed Operation of Ion Tubes and Test Circuits
  • APS:     Pulsed Operation of an Ar/Kr Ion Tube
  • APS:     Pulsed Testing of an Ion Laser Tube
  • APS:         Ar/Kr Ion Tube Pulse Test Circuit 1
  • APS:         Ar/Kr Ion Tube Pulse Test Circuit 2
  • APS:         Ar/Kr Ion Tube Pulse Test Circuit 3
  • APS: Miscellaneous Ion Laser Power Supply Information
  • APS:     About the Wide Range of Power Supply Characteristics

  ---

  
  

  Ar/Kr Ion Laser Power Supply Design

  • APD: Power Supply Circuits Intro, AC Line Front-Ends
  • APD:     Ar/Kr Ion Laser Power Supply Circuits
  • APD:     Notation used in Ar/Kr Ion Laser Power Supply Diagrams and Schematics
  • APD:     Single-Phase 115 VAC Front-End
  • APD:     Single-Phase 230 VAC Front-End
  • APD:     Three-Phase 240/208 VAC Front-End
  • APD: Regulators - Linear, Switchmode, Control
  • APD:     Ar/Kr Ion Laser Power Supply Regulators
  • APD:     Series Pass Linear Regulators
  • APD:     Typical Linear Regulator Circuit
  • APD:     Linear Regulator Using Only Discrete Components
  • APD:     Linear Regulator Using IC
  • APD:     Interfacing to the Line-Connected Circuitry
  • APD:     Series Pass Switchmode Regulators
  • APD:     Typical Switchmode Regulator Circuit
  • APD:     Switchmode Regulator Controller
  • APD:     Hall-Effect Current Sensor (CS)
  • APD:     Protecting Pass-Banks from Catastrophic Failures
  • APD: Inverter Type Circuit, Example From Microwave Oven
  • APD:     Basic Inverter Type Power Supply
  • APD:     High Frequency Inverter Type Microwave Oven HV Power Supplies
  • APD: Multiple Loop Controller, Light Feedback, Overcurrent Trip
  • APD:     Multiple Loop Controller Organization
  • APD:     Light Control Circuitry
  • APD:     Overcurrent Shutdown Circuit
  • APD: Igniters, Pulse, Resonant, Bypass, High Current High Voltage Diodes
  • APD:     Ar/Kr Ion Tube Pulse Type Igniter
  • APD:     Ar/Kr Ion Tube Resonant Igniter
  • APD:     An Unusual Arc Lamp or Ion Laser Igniter
  • APD:     Alternative Starting Circuits for Small Ar/Kr Ion Tubes
  • APD: Filament and Low Voltage Supplies, Line Frequency Clock
  • APD:     Ar/Kr Ion Tube Filament Power Supply
  • APD:     Low Voltage Power Supplies
  • APD: Requirements, Safety, Protection, Switches, Indicators
  • APD:     Basic Requirements for a Hobbyist Power Supply
  • APD:     Required Safety/Protection Features
  • APD:     Typical Interlock Chain Wiring
  • APD:     Control Logic and Power Switching
  • APD:     User Switches and Indicators
  • APD:     Interlock and Thermostat Switches and Indicators
  • APD: Component Selection and Construction Considerations
  • APD:     Ar/Kr Ion Laser Power Supply Component Selection
  • APD:     Ar/Kr Ion Laser Power Supply Construction Considerations
  • APD: Special Parts 1 - Low Ohm Resistors, HV High Current Diodes
  • APD:     Constructing Low Ohm High Power Resistors
  • APD:     Construction of HV High Current Blocking Diodes
  • APD: Special Parts 2 - Relay Drivers, Indicators
  • APD:     Relay Drivers
  • APD:     Driving Relays with AC Coils
  • APD:     Driving Relays with DC Coils
  • APD:     115 VAC Indicators
  • APD:     Interlock and Protector Indicator
  • APD:     Visual Capacitor Bleeder Circuit

  ---

  
  

  Complete Ar/Kr Ion Laser Power Supply Schematics

  • ASC: Introduction to Ar/Kr Ion Laser Power Supply Schematics
  • ASC:     Ion Laser Power Supply Selection Guide
  • ASC:     Voltage Conversion Options
  • ASC:     Specifications and Pinouts for Various Argon Ion Lasers
  • ASC: Commercial Ar/Kr Ion Laser Power Supplies and Laser Heads
  • ASC:     Omnichrome 150R Power Supply and 532 Laser Head (Omni-150R/532)
  • ASC:         Introduction to Omni-150R/532 Schematics
  • ASC:         Omni-150R/532 Schematics
  • ASC:         Omni-150R Power Subsystem
  • ASC:         Omni-150R Control Subsystem
  • ASC:         Omni-532 Laser Head
  • ASC:         Omnichrome PSU to Laser Head Interconnect Wiring
  • ASC:         Omnichrome PSU Remote Connector Wiring
  • ASC:         Omni/Melles Griot 170/175/176 Remote Wiring
  • ASC:         Differences Between Domestic and European ALC Model 60 Series Laser Heads
  • ASC:         Converting the Omni-150 from 115 VAC to 230 VAC Operation
  • ASC:         Converting the Omni-155 from 230 VAC to 115 VAC Operation
  • ASC:         Running Ion Tubes with Lower DC Voltage Ratings on the Omni-150
  • ASC:         Omnichrome Power Supply Failures
  • ASC:         Omni-150 Power-Up Sequence and Troubleshooting
  • ASC:         Omni-150R Checkout Procedure
  • ASC:     Omnichrome 150 Power Supply (Omni-150)
  • ASC:         Introduction to Omni-150 Schematics
  • ASC:         Omni-150 Rev B Schematics
  • ASC:         Omni-150 Rev B Operation
  • ASC:         Omni-150 Rev C Schematics
  • ASC:     Marlen Power Supply Notes
  • ASC:     NEC-3030 Laser Head (NEC-3030)
  • ASC:         Introduction to NEC-3030 Schematics
  • ASC:         NEC-3030 Schematics
  • ASC:         NEC-3030 Circuit Description
  • ASC:         NEC PSU to Laser Head Interconnect Wiring
  • ASC:     Cyonics/Uniphase 2201 Laser Head and Power Supply (CU-2201)
  • ASC:         CU-2201 Basic Description
  • ASC:         CU-2201 Interconnect Wiring
  • ASC:         CU-2201 Starter Schematics
  • ASC:         CU-2201 Remote Wiring
  • ASC:         Notes on the CU-2201 Power Supply
  • ASC:     Cyonics/Uniphase 2214 Laser Head (CU-2214)
  • ASC:         CU-2214 Basic Description
  • ASC:         CU-2214 Schematics
  • ASC:         CU-2214 Circuit Description
  • ASC:         CU-2214 Interconnect Wiring
  • ASC:         CU-2214 Remote Wiring and Control Panel
  • ASC:         Notes on the CU-2214 Power Supply
  • ASC:         Troubleshooting CU-2214 Starting Problems
  • ASC:         CU-2214 Pulsed Test Supply
  • ASC:         Jon's CU-2214 Power Supply
  • ASC:         Running a Spectra-Physics 161B-Type Laser Head on a CU-2214
  • ASC:     Spectra-Physics-261 Power Supply and 161 Laser Head
  • ASC:         SP-261 PSU to Laser Head Interconnect Wiring
  • ASC:         SP-261B Remote/Interface Connector
  • ASC:         SP-161C Laser Head Wiring
  • ASC:         Common Problem with SP-261
  • ASC:     Spectra-Physics-262A Power Supply
  • ASC:     Spectra-Physics-263 Power Supply and 163 Laser Head
  • ASC:         SP-163C/263C Laser Description
  • ASC:         SP-263A Remote/Interface Connector
  • ASC:         SP-263C Remote/Interface Connector
  • ASC:         SP-263D Remote/Interface Connector
  • ASC:     Lexel-75 Power Supply Notes
  • ASC:     Lexel-88 Power Supply and Laser Head (Lexel-88)
  • ASC:         Introduction to Lexel-88 Schematics
  • ASC:         General Description of Lexel-88
  • ASC:         Lexel-88 Schematics
  • ASC:         Lexel-88 Power Subsystem
  • ASC:         Lexel-88 Control Subsystem
  • ASC:         Lexel-88 Laser Head
  • ASC:         Tap Chart for Lexel-88 Power Supply
  • ASC:         Notes on Lexel-88 Power Supply Ratings
  • ASC:     American Laser 60B Power Supply and Laser Head Wiring and Notes
  • ASC: Home-Built Ar/Kr Ion Laser Power Supplies and Laser Heads
  • ASC:     Sam's Super Simple(tm) Ar/Kr Ion Laser Test Power Supply (SG-IT1)
  • ASC:         Introduction to SG-IT1 Schematics
  • ASC:         SG-IT1 Schematics
  • ASC:         SG-IT1 AC Line Front-End
  • ASC:         SG-IT1 Ballast Resistor
  • ASC:         SG-IT1 Filament Supply
  • ASC:         SG-IT1 Current Meter
  • ASC:         SG-IT1 Laser Head
  • ASC:         SG-IT1 Igniter
  • ASC:     Sam's Even Simpler Ar/Kr Ion Laser Test Power Supply (SG-IX1/SG-IY1)
  • ASC:         Introduction to SG-IX1 Schematics
  • ASC:         SG-IX1 Schematics
  • ASC:         Comparison with SG-IT1 and Construction
  • ASC:         SG-IX1 Laser Head
  • ASC:         Using SG-IX1 with a Cyonics Tube in Home-Built Laser Head
  • ASC:         Connecting an ALC-60X Laser Head to SG-IX1
  • ASC:         Persuading the Cyonics Tube to Lase
  • ASC:         Addition of Current Regulator (SG-IY1)
  • ASC:         SG-IY1 Schematics
  • ASC:         Experience with SG-IY1 on a New Uniphase Head
  • ASC:     Sam's Linear Ar/Kr Ion Laser Power Supply (SG-IL1)
  • ASC:         Introduction to SG-IL1 Schematics
  • ASC:         SG-IL1 Front Panel Layout
  • ASC:         SG-IL1 Schematics
  • ASC:         SG-IL1 Power Unit
  • ASC:         SG-IL1 Control and Interlocks
  • ASC:         SG-IL1 Digital Board
  • ASC:         SG-IL1 Laser Head
  • ASC:         SG-IL1 Igniter
  • ASC:     Ben's Linear Ar/Kr Ion Laser Power Supply (BJ/SG-IL1)
  • ASC:         Someone Actually Built This Thing!
  • ASC:         Failure of the NEC-3030 Laser Head
  • ASC:         Ben's New Toy
  • ASC:         Power Supply and 60X Update
  • ASC:     Flavio's Basic Ar/Kr Ion Laser Power Supply (FS-IT1)
  • ASC:         General Description of FS-IT1
  • ASC:         Photos of FS-IT1
  • ASC:     Andrew's Basic Ar/Kr Ion Laser Power Supply (AB-IT1)
  • ASC:         General Description of AB-IT1
  • ASC:     WL's Switchmode Ar/Kr Ion Laser Power Supply
  • ASC:     Switchmode Ar/Kr Ion Laser Power Supply for NEC-3030
  • ASC:     Mario's Current Regulated Ion Laser Power Supply (MC-IL1)
  • ASC: Other Ion Laser Power Supply Schematics on the Web
  • ASC: Descriptions of Assorted Ar/Kr Ion Lasers (Power Supply Related)
  • ASC:     Lexel-95 PSU
  • ASC:     Spectra-Physics 265 Exciter with a 165-3 Argon Head
  • ASC:     The 'Gold Box' 60X PSU
  • ASC:     High Performance PSU for High-End Ion Laser
  • ASC:     The Really Strange Carson PSU

  ---

  
  

  Carbon Dioxide Lasers

  • CO2: Introduction, Suitability, Safety, Links to Other Information
  • CO2:     High Power Lasers
  • CO2:     CO2 Laser Safety
  • CO2:     Reasons to Choose a CO2 or Nd:YAG Laser
  • CO2:     Comments on CO2 Laser Efficiency
  • CO2:     Comparison of CO2 and Nd:YAG Lasers for Industrial Applications
  • CO2:     Operational Hazards with CO2 Lasers
  • CO2:     Detecting or Locating CO2 Laser Beam
  • CO2:     On-Line Introduction to CO2 Lasers
  • CO2:     Links to Information on CO2 Lasers
  • CO2: Types and Excitation of CO2 Lasers
  • CO2:     Basic Principles of Operation
  • CO2:     Types of CO2 Lasers
  • CO2:     Flowing Gas CO2 Lasers
  • CO2:     Sealed CO2 Lasers
  • CO2:     Transverse Excited Atmospheric (TEA) CO2 Lasers
  • CO2:     Slab Type CO2 Lasers
  • CO2:     Waveguide CO2 Lasers
  • CO2:     RF Excited CO2 Lasers
  • CO2:     Comparison of DC and RF Excitation
  • CO2:     Power Supplies for CO2 Lasers
  • CO2:         Typical Power Supply for a Sealed CO2 Laser
  • CO2:     Electrical Modulation of a CO2 Laser
  • CO2:     Gas Dynamic CO2 Laser
  • CO2: Gas Fill
  • CO2:     Composition and Pressures for CO2 Lasers
  • CO2:     Why is There Carbon Monoxide in Some CO2 Lasers?
  • CO2:     About the High Cost of Sealed CO2 Laser Refills
  • CO2:     CO2 Chemical Laser
  • CO2: Optics
  • CO2:     A Discussion on CO2 Laser Optics
  • CO2:     What Materials Pass or Block the CO2 Laser 10.6 um Wavelength?
  • CO2:     Required Mirror Diameter for CO2 Laser Beam Steering
  • CO2:     Reflective Optics for CO2 Lasers
  • CO2:     Polarizers for CO2 Lasers
  • CO2:     CO2 Optics Cleaning
  • CO2: Marking, Burning, Cutting, Welding Lasers, Costs
  • CO2:     Marking/Engraviing Lasers
  • CO2:     Small Wood Burning Lasers
  • CO2:     Large Wood Cutting Lasers
  • CO2:     Cutting Printed Circuit Boards
  • CO2:     Plastic Cutting Lasers
  • CO2:     Cutting Styrofoam with a CO2 Laser
  • CO2:     Cutting Polycarbonate with a CO2 Laser
  • CO2:     Cutting Thin Mylar Film with a CO2 Laser
  • CO2:     Aluminum Cutting Lasers
  • CO2:     Aluminum Welding Lasers
  • CO2:     Cutting Copper with a CO2 Laser
  • CO2:     Stone Cutting Lasers
  • CO2:     Fabric Cutting Lasers
  • CO2:     Focus Position and Cutting Speed
  • CO2:     Large Cutting Laser - Not Quite a Basement Project!
  • CO2:     Continue Dreaming
  • CO2: Miscellaneous CO2 Laser Tidbits
  • CO2:     Steve Discovers the Fun of CO2 Lasers
  • CO2:     CO2 Laser Communications
  • CO2:     Novel Idea for CO2 Laser
  • CO2:     The World's Most Inefficient CO2 Laser
  • CO2:     CO2 Laser for Tree Pruning?
  • CO2:     CO2 Laser for Paint Removal
  • CO2:     If You Have the Space and Power
  • CO2:     High Power Compact CO2 Laser?
  • CO2:     Frequency Multiplication of CO2 Laser?
  • CO2:     Laughing Gas (N2O) Laser
  • CO2: Small Commercial CO2 Lasers
  • CO2:     Coherent Xanar XA-20 Medical CO2 Laser
  • CO2:     Synrad 48-1 and 48-2 RF Excited CO2 Lasers
  • CO2:     Hughes 3800H Waveguide CO2 Laser
  • CO2:     VINCA Mini TEA CO2 Laser
  • CO2:     Laser Photonics CO2 Laser Tube
  • CO2: Descriptions of Typical Small Flowing Gas CO2 Lasers
  • CO2:     Commercial Versions of the Type of CO2 Laser You Could Build
  • CO2:     Coherent 541
  • CO2:     Sharplan 733
  • CO2:     Sharplan 1060
  • CO2:     Merrimack 850

  ---

  
  

  Helium-Cadmium Lasers

  • HEC: HeCd Laser Characteristics and Safety
  • HEC:     Basic Characteristics of HeCd Lasers
  • HEC:     The HeCd Laser Tube
  • HEC:         A Typical Larger HeCd Laser Tube
  • HEC: HeCd Laser Safety
  • HEC: Helium-Cadmium Laser Testing, Adjustment, Repair
  • HEC:     Diagnosing HeCd Laser Problems
  • HEC:     HeCd Operating Conditions
  • HEC:     HeCd Laser Troubleshooting Chart
  • HEC:     Effects of Open Filament on HeCd Laser
  • HEC:     Detecting the Output of a UV HeCd Laser
  • HEC:     Temperature Sensitivity of HeCd Lasers
  • HEC:     HeCd Laser Bore Discharge Color
  • HEC:     Reducing Helium Pressure
  • HEC:     Replenishing the Cadmium Supply?
  • HEC: Helium-Cadmium Laser Power Supplies
  • HEC:     Power Requirements for HeCd Lasers
  • HEC:     HeCd Power Supply Repair
  • HEC: Additional Information on HeCd Lasers
  • HEC:     Notes on Omnichrome HeCd Lasers
  • HEC:         Data for Omni Model 3074 HeCd Laser Head
  • HEC:         A Sick Omni Model 459-5 HeCd Laser Head
  • HEC:         Comments on Omnichrome HeCd Overpressure
  • HEC:     Notes on Liconix HeCd Lasers
  • HEC:         Liconix HeCd Lasers That Won't Stay Lit

  ---

  
  

  Solid State Lasers

  • SSL: Introduction, Basic Characteristics, Safety, Links to Other Information
  • SSL:     Introduction to Solid State Lasers
  • SSL:     Common Types
  • SSL:     Power Output - Pulsed and CW
  • SSL:     Efficiency of Solid State Lasers
  • SSL:     Miniature to Monster
  • SSL:     Microchip Diode Pumped Solid State Lasers
  • SSL:     What Ultimately Limits Output from SS Laser
  • SSL:     Solid State Laser Safety
  • SSL:     Comments on Surplus Solid State Lasers and Components
  • SSL:     Other Sources of Information on Solid State Lasers
  • SSL:     Acknowledgements for SS Laser Information
  • SSL: Basic Structure of Solid State Lasers
  • SSL:     Cavity Components
  • SSL:     Power Sources
  • SSL: The Solid State Lasing Medium
  • SSL:     Shapes and Sizes
  • SSL:     Laser Materials - Ruby, Nd:YAG, Nd:YVO4, Nd:Glass
  • SSL:     Comments on Nd:YAG, Nd:YLF, and Nd:YVO4
  • SSL:     First Nd:YAG, Now Nd:YVO₄, Next Nd:LSB
  • SSL:     Exact Wavelengths of Vanadate and YAG Lasers
  • SSL:     Comments on Nd:KGW and NYAB
  • SSL:     Power Output versus Wavelength for Vanadate and YAG
  • SSL:     Types of Nd:Glass
  • SSL:     Manufacture of Synthetic Ruby Crystals
  • SSL:     Gem Stones from SS Laser Material?
  • SSL:     Diamond for Solid State Lasers?
  • SSL:     Ceramic Solid State Lasers
  • SSL: Optical Pump Sources
  • SSL:     Xenon Flashlamps
  • SSL:         Interpreting Xenon Flashlamp Specifications
  • SSL:         EG&G 1300 Series Linear Flashlamp Specifications and Links
  • SSL:         Useful Equations for Flashlamp Selection and PFN Design
  • SSL:         Flashlamp Simmering
  • SSL:         Comments on Flashlamp Drive Limits and Effects
  • SSL:         Flashlamp Failure Behavior and Causes
  • SSL:         About Flashlamp and Arc Lamp Polarity
  • SSL:         Testing Flashlamps and Arc Lamps
  • SSL:         Flashlamp and Arc Lamp Manufacturers and References
  • SSL:     Continuous Arc Discharge lamps
  • SSL:     High Power Laser Diodes
  • SSL:     Other Pump Sources
  • SSL:         Bob's Comments on Halogen Lamp Pumped Lasers
  • SSL:         Links to Info on Solar Pumped Lasers
  • SSL: Resonator Mirrors
  • SSL:     Mirror Types and Alignment
  • SSL:     Using Gas Laser Mirrors in a SS Laser?
  • SSL:     Lasing Without Mirrors
  • SSL: Q-Switching
  • SSL:     What is Q-Switching?
  • SSL:     Mechanical Q-Switching
  • SSL:     Electro-Optic and Acousto-Optic Q-Switching
  • SSL:     Optical/Passive Q-Switching
  • SSL:     Pulse Energy Considerations in Q-Switched DPSS Lasers
  • SSL: Frequency Changers
  • SSL:     Frequency Multiplication
  • SSL:         Monolithic DPSSFD Lasers
  • SSL:         Selecting Type and Size of SHG Crystal
  • SSL:         Discussion of the Harmonic Generation Process
  • SSL:         Phase Matching for Harmonic Generation
  • SSL:         Phase Matching Acceptance Angle
  • SSL:         Intra-Cavity Versus External Frequency Multiplication
  • SSL:         Converting a Medical Laser YAG to SHG Operation
  • SSL:     Optical Parametric Oscillators
  • SSL:     SNLO - A Program to Help in Selecting Non-Linear Crystals
  • SSL:     Non-Linear Optical Effects in Liquids?
  • IOI:     Non-Linear Crystal Environmental Considerations
  • SSL: Diode Pumped Solid State Lasers
  • SSL:     What are DPSS Lasers?
  • SSL:     Frequency Multiplication of DPSS Lasers
  • SSL:     End-Pumping Versus Side Pumping of a DPSS Laser
  • SSL:     Comments on the Materials in DPSSFD Lasers
  • SSL:     Why Laser Diodes are Not Frequency Doubled Directly
  • SSL:     A First Generation Green Laser Pointer
  • SSL:     Techniques to Improve the Efficiency of a Green DPSS Laser Pointer
  • SSL:     The Edmund Scientific Model L54-101 Green Laser Pointer
  • SSL:     Anatomy of an Inexpensive Green Laser Pointer 1
  • SSL:     Anatomy of an Inexpensive Green Laser Pointer 2
  • SSL:     Anatomy of an Inexpensive Green Laser Pointer 3
  • SSL:     Anatomy of a 3 mW Green DPSSFD Laser
  • SSL:     Measurements on a Cheap Green DPSS Laser Pointer
  • SSL:     Failure Analysis of a 3 mW Green DPSSFD Laser Module
  • SSL:     Steve's Comments on the Quality of Green Laser Pointers and Small DPSSFD Lasers
  • SSL:     Increasing Output Power of Small DPSSFD Laser
  • SSL:     What is the Difference Between Green and Blue DPSSFD Lasers?
  • SSL:     Bob's Comments on Quality and Cost of DPSS Lasers
  • SSL:     Kevin's Comments on Inexpensive DPSS Lasers
  • SSL:     DPSS Laser Efficiency
  • SSL:     Doping Levels of Nd:YAG, Nd:YVO₄, and Ruby
  • SSL:     Pump Polarization Considerations for DPSS Lasers
  • SSL:     LED Pumped DPSS Laser?
  • SSL:     DPSS Ruby Laser?
  • SSL:     Direct Modulation of DPSS Lasers
  • SSL:     Wavelength Shift of DPSSFD Laser
  • SSL:     Amplitude Noise in DPSS Lasers
  • SSL:     DPSS or Diode Laser?
  • SSL: Additional Information Related to Solid State Lasers
  • SSL:     Laser and Optics Crystalline Materials
  • SSL:     Instant Primer on Crystal Axis Terminology
  • SSL:     Types of KTP and Growth Methods
  • SSL:     Pump Range, Output Wavelengths, and Thresholds for Various Materials
  • SSL:     Color of Common Lasing Crystals
  • SSL:     Mark's Comments on Ruby Laser Pump Power and Cavity Reflectors
  • SSL:     Pulsed Ruby Laser Questions and Comments
  • SSL:     CW Ruby Laser?
  • SSL:     John's Notes on Er:YAG Lasers
  • SSL:     What is a Zig-Zag Crystal?
  • SSL:     Comments on Erbium Lasers
  • SSL:     Natural Ruby Crystal for Solid State Laser?
  • SSL:     Choice of Lamp Pumped or Diode Pumped Solid State Laser
  • SSL:     Thermal Lensing in SS Lasers
  • SSL:     CO2 Gas Input to SS Laser
  • SSL:     Thin Disk High Power Solid State Lasers
  • SSL:     Solid State Fiber Lasers
  • SSL:     Inheriting a Ti:Sapphire or Similar Laser
  • SSL:     Early Ruby Laser Rangefinder
  • SSL: Micro Laser Rangefinder Using Disposable Flash Pumped Nd:YAG and OPO

  ---

  
  

  Commercial SS Lasers

  • SCL: Introduction
  • SCL: Florod LCP Laser Trimming System
  • SCL: Hughes Rangefinder Ruby Laser Assembly
  • SCL:     Description and Specifications
  • SCL:     Notes on the Hughes Q-Switch
  • SCL:     Comments on the Hughes Ruby Laser
  • SCL:     Comments and Caution About the Resonant OC
  • SCL:     Increasing Repetition Rate of Hughes Ruby Laser?
  • SCL: A Small Nd:YAG Laser - SSY1
  • SCL:     Description and Specifications
  • SCL:     Variations in Performance of SSY1s
  • SCL:     Comments on the SSY1 Nd:YAG Laser
  • SCL:     Patrick's SSY1 Experiments
  • SCL:     Shawn's High Energy Experiments with the SSY1 Laser Head
  • SCL:     Other High Energy Experiments with the SSY1 Laser Head
  • SCL:         Pspice Program for SSY1
  • SCL:     Frequency Doubling SSY1
  • SCL:     High Power SLM Green from SSY1
  • SCL:     Using SSY1 to Make Holograms
  • SCL:     Other SSY1 Tidbits
  • SCL: Laser Photonics YQL-102 Pulsed YAG Laser
  • SCL: Quantronix Model 114F-O/QS Quasi-CW YAG Laser Head
  • SCL:     Description and Specifications
  • SCL:     Chris's Comments on the Quantronics Laser
  • SCL:     Ed's Comments on the Quantronics Laser
  • SCL: Varo Erbium:Glass Laser Rangefinder
  • SCL:     Varo Rangefinder Description
  • SCL:     Pinouts of Varo Power Supply Board
  • SCL:     Operation of the Varo Laser Rangefinder Laser
  • SCL: Diode Pumped Solid State Lasers
  • SCL:     Comparison of Green (532 nm) Single Frequency DPSS Lasers
  • SCL: Adlas 300 Green DPSS Laser
  • SCL: Adlas DPY 105/205/305/315 Series II Green DPSS Laser
  • SCL: Coherent Compass-M Green DPSS Lasers
  • SCL:     General Description of the Compass-M Lasers
  • SCL:     Quick Comparison of Coherent Compass 532 and Compass-M Lasers
  • SCL:     Differences Between the C215M, C315M, and C415M
  • SCL:     Using the Coherent Analog Controller
  • SCL:         Single Point Failure Mode of the C315M Analog Controller
  • SCL:         Analog Controller User Interface Signals
  • SCL:         Compass-M Laser Control Panels
  • SCL:         Checklist for Powering a Compass-M System
  • SCL:         Adjusting Maximum Compass-M Laser Head Power
  • SCL:         Wavelength Tuning of Compass-M Lasers
  • SCL:     Coherent Compass 215M Green DPSS Laser
  • SCL:         C215M Laser Head Description
  • SCL:         Analog Controller for the C215M
  • SCL:     Coherent Compass 315M Green DPSS Laser
  • SCL:         C315M Laser Head Optical Layout
  • SCL:         Analog Controller for the C315M
  • SCL:         C315M Laser Head/Controller Cable Wiring
  • SCL:         Wavelength Entertainment in the C315M Laser
  • SCL:         Deciphering the C315M Laser Head Serial Datastream
  • SCL:     Powering the C315M Laser Head with a Non-Standard Controller
  • SCL:         C315M Laser Head Signals
  • SCL:         Sam's TEC Controller Module 1 (SG-TM1)
  • SCL:         Powering the C315M with the C215M Analog Controller
  • SCL:         Powering the C315M with a Home-Built
  • SCL:         Powering the C315M with the Wavelength Electronics WLD-3343 and WHY-5640
  • SCL:         Powering the C315M with the ILX Lightwave Model LDC-3900
  • SCL:     Testing the C315M Laser Head for Single Frequency Operation
  • SCL:         Birefringence or Etalon Effect Used for Mode Selection in C315M?
  • SCL:     Coherent Compass 415M Green DPSS Laser
  • SCL:         C415M Laser Head Optical Layout
  • SCL: Coherent Compass 532 Green DPSS Laser
  • SCL:     Basic Description and Specifications of the C532
  • SCL:     C532 User Interface Signals
  • SCL:     Details of the C532 Laser Cavity
  • SCL:     C532 Electronics
  • SCL:         C532 Power Input Module
  • SCL:         C532 LD and TEC Drivers
  • SCL:         C532 Mode Stabilization
  • SCL:     Powering the C532 Laser Head with a Third-Party or Home-Built Controller
  • SCL:     Blue Version of the C532?
  • SCL: Coherent Verdi Green High Power DPSS Laser
  • SCL: JDS Uniphase SLM uGreen 532 nm DPSS Laser
  • SCL:     General Description of the uGreen Laser
  • SCL:     uGreen Connections
  • SCL:         uGreen Controller to 4601 Laser Head Wiring
  • SCL:         uGreen Laser Head Test Assembly Wiring
  • SCL:         uGreen Controller to 4301 Laser Head Wiring
  • SCL:         uGreen 4702 Laser Head Wiring
  • SCL:         uGreen CDPS532S/G30 Laser Head Wiring
  • SCL:         uGreen CDPS532M/G50 Laser Head Wiring
  • SCL:     Uniphase Standard uGreen Controllers
  • SCL:         uGreen HYB B Controller
  • SCL:         uGreen 4802 Digital Controller
  • SCL:     Powering the uGreen Laser Head with a Third-Party or Home-Built Controller
  • SCL:         Powering the uGreen Laser Head With the ILX Lightwave Model LDC-3900
  • SCL:     Wavelength Tuning of uGreen Lasers
  • SCL:     uGreen Laser Head Construction
  • SCL:         uGreen 4601 Laser Head Construction
  • SCL:         uGreen 4617 Laser Head Construction
  • SCL:         uGreen 4301 Laser Head Construction
  • SCL:         uGreen 4702 Laser Head Construction
  • SCL: JDS Uniphase Nanolasers
  • SCL: Melles Griot Low Power DPSS Lasers
  • SCL:     The Melles Griot 58-GCS Series Green DPSS Laser
  • SCL: Melles Griot High Power DPSS Lasers
  • SCL:     Description of Melles Griot High Power DPSS Lasers
  • SCL:     Melles Griot Dual Beam Blue DPSS Lasers
  • SCL:     Controllers for Melles Griot High Power DPSS Lasers
  • SCL: Lightwave Electronics 110 IR Q-Switched DPSS Laser
  • SCL:     LWE-110 Laser Head Pinout
  • SCL: Lightwave Electronics 125/126 IR DPSS Laser
  • SCL: Lightwave Electronics 142 Green DPSS Laser
  • SCL:     Basic Description of the LWE-142
  • SCL:     LWE-142 Power, Control, and Cooling
  • SCL:     LWE-142 Operation Using the RS232 Interface
  • SCL:     Problems and Quirks of an LWE-142
  • SCL:     Locking Behavior of the LWE-142 Laser
  • SCL:     Tuning behavior of the LWE-142 Laser
  • SCL:     Construction of the LWE-142 Laser Head
  • SCL:     Organization of the LWE-142 Controller
  • SCL:     Testing and Firmware Adjustment of LWE-142 Lasers
  • SCL: Lightwave Electronics 221 DPSS Laser
  • SCL:     Basic Description and Safety/Operation Issues of the LWE-221
  • SCL:     LWE-221 General Specifications
  • SCL:     LWE-221 Power Unit
  • SCL:     LWE-221 Hardware Control Panel
  • SCL:     LWE-221 Operation Using the RS232 Interface
  • SCL:     LWE-221 Operation Without a Chiller
  • SCL:     LWE-221 Modulation
  • SCL:     LWE-221 Startup Checklist/Procedure
  • SCL:     LWE-221 Lasing Experiences and Comments
  • SCL:     LWE-221 Bugs/Features/Questions/Observations
  • SCL: Spectra-Physics ZLM Laser
  • SCL:     Basic Description and Safety/Operation Issues of the SP-ZLM
  • SCL:     The SP-ZLM Laser Head
  • SCL:         Description of the SP-ZLM Laser Head
  • SCL:         Powering Up the Spectra-Physics ZLM Laser Head
  • SCL:     Spectra-Physics T40 FCBar Laser Controller
  • SCL:         Description of the SP-T40
  • SCL:         Powering up the SP-T40
  • SCL: Amoco DPSS Lasers
  • SCL:     Amoco 1,064 and 1,320 nm DPSS Lasers
  • SCL:     Amoco 532 nm DPSS Lasers
  • SCL: B&W Tek 532-10-OEM 10 mW DPSS Laser
  • SCL: Laser Export Model LCM-DTL-374QT Q-switched UV DPSS Laser
  • SCL: The Transverse Green DPSS Laser

  ---

  
  

  SS Laser Testing, Adjustment, Repair

  • STR: System Maintenance and Adjustments
  • STR:     Cleaning a Laser Rod
  • STR:     Laser Rod Mounting and Removal
  • STR:     Aligning a Solid State Laser
  • STR:     Comments on High Power SS Laser Alignment
  • STR:     Issues of Liquid Cooling in SS Lasers
  • STR: SS Laser System Repair
  • STR:     Discussion About Nd:YAG Laser Repair
  • STR:     Grinding and Polishing a Laser Rod
  • STR:     Salvaging the Damaged KTP Crystal in a DPSS Laser
  • STR:     Multiple Pulses From Rangefinder Laser
  • STR:     Problems with Beam Quality of High Energy Pulses
  • STR:     Inconsistent Energy from Forth Harmonic Pulses
  • STR:     Comments on Nd:YAG Laser Power Instability
  • STR: Repair of DPSS Laser Pointers
  • STR:     Disassembly and Reassembly/Alignment of the Edmunds L54-101 Green DPSS Laser Pointer
  • STR:     Disassembly and Reassembly/Alignment of an MCA-Based Green DPSS Laser Pointer
  • STR:     Partially Reviving a Green DPSS Laser Pointer
  • STR: Laserscope Doubled YAG Maintenance
  • STR:     Laserscope Description
  • STR:     Laserscope Cleaning and Alignment
  • STR:     Conversion of Medical Laserscope to General Use
  • STR:     Medical Conversion Laserscope Adjustments
  • STR:     Laserscope KTP Oven Wiring
  • STR:     Selecting a Laserscope
  • STR: Cooper/Lasersonics YAG Laser Notes
  • STR: Aligning the Hughes Ruby Laser
  • STR:     Sam's Method
  • STR:     Wes's Method
  • STR:     Aligning the Q-Switch
  • STR: Coherent Compass-M Green DPSS Lasers
  • STR:     C315M Internal Connector Pinout
  • STR:     Troubleshooting Compass-M Laser System Problems
  • STR:     Testing of Compass-M Lasers
  • STR:         Powering the C315M for Testing 1
  • STR:         Powering the C315M for Testing 2
  • STR:         Description and Measurements for each of the C315M Laser Head Signals
  • STR:         Typical C315M Pump Diode Current
  • STR:         Measurements of Compass-M TEC I/V Characterstics
  • STR:         Test Adapters for the Coherent Analog Controller
  • STR:         C315M Laser Diagnostic Control Panel
  • STR:         Simplified C315M Laser Diagnostic Unit
  • STR:         Compass-M Laser Test Procedure
  • STR:     Repair of Compass-M Laser Heads
  • STR:         Internal Construction of Compass-M Laser Heads
  • STR:         Getting Inside a C315M or C415M Laser Head
  • STR:         Factory Alignment of Compass-M Laser Heads
  • STR:         Replacing or Reinstalling Compass-M Laser Head Components
  • STR:         Reinstalling the OC Mirror on a Compass-M Laser Head
  • STR:         Reinstalling the HR Mirror on a Compass-M Laser Head
  • STR:         Replacing the Pump Diode in a Compass-M Laser Head
  • STR:         Salvaging Parts from a Compass-M Laser
  • STR:     Reports from Sam's Coherent Compass-M Laser Hospital
  • STR:         Coherent C315M Laser Heads - Green Glow Only
  • STR:         Coherent C315M Laser Heads - Weak Lasing 1
  • STR:         Coherent C315M Laser Heads - Weak Lasing 2
  • STR:         Coherent C315M Laser Heads - No Lasing
  • STR:         Coherent C315M Laser Heads - Mode Problems
  • STR:         Coherent C315M Laser Head - Does Not Reliably Stabilize
  • STR:         Coherent C315M Laser Morgue
  • STR:         Coherent C415M Laser Head - Weak Lasing
  • STR:         Coherent C415M Laser Head - Bowling Ball Rolling Around Inside
  • STR:     Coherent Analog Controller Problems
  • STR: Coherent Compass 532 Green DPSS Laser
  • STR:     Operation of the C532
  • STR:         C532 Control Panel and Test Adapter
  • STR:     Troubleshooting and Repair of the C532
  • STR:         Description of the Pots
  • STR:         Initial Testing and Adjustment of the C532
  • STR:         C532 Mode Stabilization (EO) Adjustments
  • STR:         LD Temperature Control Problems
  • STR:     Pump Diode Replacement in the C532
  • STR:         Sam's Experience with a C532 Pump Diode Transplant 1
  • STR:         Sam's Experience with a C532 Pump Diode Transplant 2
  • STR:         Curt's Comments on C532 Pump Diode Replacement and Other Issues
  • STR:         Repairing an SDL-2372 Laser Diode Assembly
  • STR:     Replacing a Damaged Waveplate in the C532
  • STR: JDS Uniphase SLM uGreen 532 nm DPSS Laser
  • STR:     Troubleshooting of the uGreen DPSS Laser
  • STR:     HYBRID B 2.3 Controller for uGreen Laser
  • STR:         Using the HYBRID B Controller for Testing of uGreen Lasers
  • STR:     Comparison of uGreen 4301 and 4600 Laser Heads
  • STR:     The Model 4600 SLM uGreen Laser
  • STR:         Components of the Model 4600 uGreen Laser
  • STR:         Powering the Model 4600 uGreen Laser with a Laser Diode Driver
  • STR:         Typical Problems With uGreen Lasers
  • STR:         Examples of Minor Repairs to uGreen Lasers
  • STR:         Model 4600 uGreen Pump, KTP, and Output Cleaning
  • STR:         Model 4600 uGreen Pump, KTP, and Output Alignment
  • STR:         Model 4600 uGreen Laser Disassembly
  • STR:         Replacing the OC Mirror on a uGreen Laser
  • STR:     The Model 4301 SLM uGreen Laser
  • STR:         Components of the Model 4301 uGreen Laser
  • STR:         Repairing a 4301 uGreen Laser Head Damaged by Excessive Power
  • STR:         Replacing the Pump Diode in uGreen 4301 and 4501 Laser Heads
  • STR:     G50/CDPS532M uGreen Laser
  • STR:         Testing G50/CDPS532M Laser Heads
  • STR:     Converting the uGreen to an IR Laser
  • STR:     Using uGreen Parts for Other Lasers
  • STR: Melles Griot High Power DPSS Lasers
  • STR:     Problems with Melles Griot High Power DPSS Lasers
  • STR:     Testing the Controllers for Melles Griot High Power DPSS Lasers
  • STR:     Pinouts for Melles Griot High Power DPSS Lasers
  • STR:         Pinouts for Newer Controllers
  • STR:         Pinouts for Older Controllers
  • STR:         Pinouts for Older Laser Heads
  • STR:     Adjustment of Temperature Set-Points in Melles Griot High Power DPSS Lasers
  • STR:     Adjustment of Laser Diode Current in Melles Griot High Power DPSS Lasers
  • STR:     Alignment of Melles Griot High Power DPSS Lasers
  • STR:     Testing the Pump Diode in Melles Griot High Power DPSS Lasers
  • STR:     Replacement of the Pump Diode in Melles Griot High Power DPSS Lasers
  • STR:     Repairing a Melles Griot 58-GSD-309
  • STR: Tid-Bits from Laser Mainenance Land
  • STR:     When You're in Continuous Panic Mode

  ---

  
  

  SS Laser Power Supplies

  • SPS: Introduction, Basic Characteristics, Safety
  • SPS:     Introduction to SS Laser Power Supplies
  • SPS:     Basic Structure and Characteristics of SS Laser Power Supplies
  • SPS:     Solid State Laser Power Supply Safety
  • SPS:     Interlocks and Firing Controls
  • SPS: SS Laser Power Supplies Using Photographic Strobes
  • SPS:     What Types may be Suitable?
  • SPS:     Using One or More Disposable Camera Flash Units to Pump a Small YAG Rod
  • SPS: Capacitor Chargers
  • SPS:     Capacitor Charging Circuits
  • SPS:     Sources for Capacitor Charging Circuit Components
  • SPS:     Recycled Defibrillator as Capacitor Charger
  • SPS:     Electrophoresis Power Supplies as Capacitor Chargers
  • SPS: Energy Storage Capacitors
  • SPS:     Calculating the Required Capacitance
  • SPS:     Sources for Flashlamp Rated Capacitors
  • SPS: Pulse Forming Network Inductors
  • SPS:     Calculating the Required Inductance
  • SPS:     Constructing Pulse Forming Inductors
  • SPS:     Modifying the PFN Inductor for Series Triggering
  • SPS:     Lou's Comments on Replacing the M-60 Inductor/Trigger Transformer
  • SPS: Laser Design Aids
  • SPS:     Pulsed Solid State Laser Design Resources
  • SPS:         Rotorwave Technical Section
  • SPS:         Doug Little's PFN Calculations Spreadsheet
  • SPS:     Handy Little Programs
  • SPS:         Energy Stored in a Capacitor (joules.c)
  • SPS:         Capacitor Value for a Desired Energy (flashcap.c)
  • SPS:         Inductance for a Pulse Width and Capacitor Value (inductor.c)
  • SPS:         Pulse Duration of a PFN (pulse.c)
  • SPS:         Capacitance, Voltage, and Inductance of a PFN (pfn.c)
  • SPS:         Inductance of an Air-Core Coil (coil.c)

  ---

  
  

  Complete SS Laser Power Schematics

  • SSC: Introduction to Complete SS Laser Power Supply Schematics
  • SSC: Pulse Forming Network 1 and SSY1 Trigger PCB
  • SSC:     Description of PFN1
  • SSC:     PFN1 Schematics
  • SSC:     Trigger Circuit (TRG1)
  • SSC: Sam's AC Line Power Supply for SSY1 (SG-SP1)
  • SSC:     Description of SG-SP1
  • SSC:     SG-SP1 Schematics
  • SSC:     Don's Comments on the SSY1 Flashlamp
  • SSC: Sam's Small Adjustable Power Supply for Solid State Pulsed Lasers (SG-SP4)
  • SSC:     Description of SG-SP4
  • SSC:     SG-SP4 Schematics
  • SSC: Sam's Inverter Power Supply for SSY1 (SG-SI1)
  • SSC:     Description of SG-SI1
  • SSC:     SG-SI1 Schematics
  • SSC: Sam's HeNe Laser PSU Based Power Supply for SSY1 (SG-SH1)
  • SSC:     Description of SG-SH1
  • SSC:     SG-SH1 Schematics
  • SSC: Sam's High Power Solid State Laser Power Supply (SG-SP2)
  • SSC:     Description and Schematic of SG-SP2
  • SSC:     SG-SP2 Operation
  • SSC:     SG-SP2 Notes
  • SSC: Sam's High Energy AC Line Power Supply for SSY1 (SG-SP3)
  • SSC:     Description of SG-SP3
  • SSC:     SG-SP3 Schematics
  • SSC: Simple Capacitor Charger for SSY1
  • SSC: Simple Inverter Capacitor Charger Based on HSS1
  • SSC:     Basic Description of HSS1
  • SSC:     HSS1 Schematics
  • SSC:     The HSS1 Inverter Transformer
  • SSC: Ultra-Compact 350 V Capacitor Charger
  • SSC: Wes's Ruby Laser Power Supply (WE-SP1)
  • SSC:     Description of WE-SP1
  • SSC:     WE-SP1 Schematics
  • SSC: Sam's Proposed Power Supply for M-60 Laser (SG-SP5)
  • SSC: Sam's Q-Switch Trigger Circuit for Hughes M-60 Ruby Laser (SG-ST1)
  • SSC:     Description and Schematic of SG-ST1
  • SSC: Doug's Q-Switch Trigger Circuit for Hughes M-60 Ruby Laser (DL-ST1)
  • SSC:     Description and Schematic of DL-ST1
  • SSC: Andreiko's Q-Switch Trigger Circuit for Hughes M-60 Ruby Laser (AK-ST1)
  • SSC:     Description and Schematic of AK-ST1
  • SSC: Power Supply for Micro YAG Laser (uYAG)
  • SSC:     Description of uYAG PSU
  • SSC:     Links to Additional MAX Flash Information
  • SSC:     MAX Flash Interface and Circuit Modifications
  • SSC: Other SS Laser Power Supplies on the Web

  ---

  
  

  Amateur Laser Construction

  • CON: Introduction to Amateur Laser Construction
  • CON:     So You Think You Really Want to Build a Laser
  • CON:         Reasons NOT TO Build a Laser from Scratch
  • CON:         Reasons TO Build a Laser from Scratch
  • CON:         Flavio's Comments on Amateur Laser Construction
  • CON:         Diane's Home-Built Laser Experiences - The Beam and I
  • CON:         Experiences of People Who Have Built Lasers From Scratch
  • CON:         Building a Femtosecond Laser at Home?
  • CON:     Some Photos of Home-Built Lasers
  • CON:     Diagrams Showing Major Components of Typical Home-Built Lasers
  • CON:     Comments on a Universal Experimenter's Gas Laser
  • CON:     What About a Home-Built Solid State Laser?
  • CON:     Home-Built X-Ray Laser?
  • CON:     General Resources for Amateur Laser Construction
  • CON:     Scrounger of the Month Award
  • CON:     Acknowledgements
  • CON: Setting up a Home Laser Lab
  • CON:     Safety Issues in a Lab for Home-Built Lasers
  • CON:     Work Area - Setting up a Laser Lab
  • CON:     Possible Laser Lab Layout
  • CON:     Sources of Special Parts and Supplies
  • CON:     More on Obtaining Gases
  • CON:     Tips for Dealing with a Neon Sign Shop
  • CON: Vacuum Technology for Home-Built Gas Lasers
  • CON: Introduction to Glass Working
  • CON:     Laser Tube Fabrication
  • CON:     Types of Glass
  • CON:     Cutting Glass Tubing
  • CON:     Glass Working 101
  • CON:     Gas Flames
  • CON:     Glass Working Examples
  • CON:     Home-Built Glass Working Lathe
  • CON:     Learning Glass Working Skills
  • CON:     Here's Someone Who Has Offered Glass Working Services
  • CON: Electrodes and Getters
  • CON:     Types of Electrodes Used With Home-Built Lasers
  • CON:     Getters in Home-Built Lasers
  • CON:     Methods to Activate Neon Sign Electrodes and Getters
  • CON:     Basic Induction Heater Circuit
  • CON:     Sam's Recycled PC Power Supply Induction Heater
  • CON:     Sam Schwartz's RF Power Oscillator for Heating Getters
  • CON:     Simple Solar Heater
  • CON: The Central High School Cyclotron
  • CON:     Why is This Here?
  • CON:     What is a Cyclotron?
  • CON:     The CHS Cyclotron Facility
  • CON:     True R and D
  • CON:     Other Home-Built Cyclotrons
  • CON:     The First Generation Central High School Cyclotron

  ---

  
  

  Vacuum Technology for Home-Built Gas Lasers

  • CVA: Introduction to Vacuum Systems and Technology
  • CVA:     Vacuum Systems for Home-Built Gas Lasers
  • CVA:     Vacuum Systems References, Links, Forums
  • CVA:     What does a Pressure of Such-and-Such Really Mean?
  • CVA:     What is a Low, Medium, or High Vacuum?
  • CVA:         Handy-Dandy Vacuum Chart
  • CVA:     How Good a Vacuum System is Really Needed?
  • CVA:     Safety Issues when Working with Vacuum Systems
  • CVA: Vacuum Pumps
  • CVA:     Types of Vacuum Pumps
  • CVA:     More on Rotary Vane Mechanical Vacuum Pumps
  • CVA:     Refrigeration (HVAC) Service Pumps
  • CVA:     Specifications of Welch Rotary Mechanical Vacuum Pumps
  • CVA:     Motor Wiring of Small Pfeiffer Rotary Vane Pump Motors
  • CVA:     Rotary Vane Vacuum Pump Maintenance
  • CVA:         Checking Out a Used Rotary Vane Vacuum Pump
  • CVA:         Things to Check for Poor Rotary Vane Pump Performance
  • CVA:         Changing the Oil in a Rotary Vane Vacuum Pump
  • CVA:         Notes on Flushing of Rotary Vane Mechanical Pumps
  • CVA:         Replacing the Shaft Seal on a Sargent-Welch Rotary Vane Vacuum Pump
  • CVA:         Rehabilitating a Precision Scientific D25 Rotary Vane Vacuum Pump
  • CVA:         Disassembling and Inspecting a Pfeiffer Duo 1.5A Rotary Vane Vacuum Pump
  • CVA:         Disassembling and Inspecting a Welch 1399 Rotary Vane Vacuum Pump
  • CVA:         Ulvac Direct Drive Rotary Vane Vacuum Pump With Leaky Shaft Seal
  • CVA:         When to Leave a Sleeping Dog (of a Vacuum Pump) Lie
  • CVA:     Salvaged Refrigeration Compressors as Vacuum Pumps
  • CVA:         Salvaged Refrigeration Compressor Wiring
  • CVA:         Chris's Comments on Refrigeration Compressors
  • CVA:         John's Comments on Refrigeration Compressors
  • CVA:         Steve's Comments on Refrigeration Compressors
  • CVA: Vacuum Gauges
  • CVA:     Types of Vacuum Gauges
  • CVA:     Thermocouple Vacuum Gauges
  • CVA:         Specifications of Teledyne Hastings Thermocouple Vacuum Gauge Tubes
  • CVA:         Calibration Reference Points for Hastings TC Gauge Tubes
  • CVA:         Internal Construction of Hastings TC Gauge Tubes
  • CVA:         Simplest Hastings Thermocouple Gauge Readouts
  • CVA:         Hastings CVT Thermocouple Vacuum Controllers
  • CVA:         Hastings NV-8B Vacuum Gauge
  • CVA:         Hastings TC Gauge AVC Controller with Mod 4/6 Digital Readout
  • CVA:         Troubleshooting Hastings TC Vacuum Gauges
  • CVA:         Sam's Home-Built Thermocouple Vacuum Gauge 1 (SG-TC1)
  • CVA:         Sam's Home-Built Thermocouple Vacuum Gauge 2 (SG-TC2)
  • CVA:         Assorted TC Gauge Tubes, Readouts, and Controllers
  • CVA:         Universal TC Vacuum Gauge Tube Driver
  • CVA:         Repairing a Hastings VT-4B Vacuum Gauge
  • CVA:         Repairing the Taut Band Suspension of the Meter in a Hastings CVT-16
  • CVA:         Vacuum Pump Protector Based on Hastings CVT-16
  • CVA:         Adapting a Lesker TCC-220 to Use a Hastings DV-6M TC Gauge Tube
  • CVA:         Hastings TC Vacuum Gauge Test Widget
  • CVA:         Sam's Hastings TC Gauge Tester 1
  • CVA:         Cleaning Vacuum Gauge Sensors
  • CVA:     Manometer Vacuum Gauges
  • CVA:         Home-built Closed-End Manometer Gauge
  • CVA:         The Capacitance Manometer Vacuum/Pressure Gauge
  • CVA:     Ionization Vacuum Gauges
  • CVA:         Checking Out an Ionization Gauge Controller
  • CVA:         Sam's Ionization Vacuum Gauge Tester
  • CVA:     Measuring a Vacuum Without a Vacuum Gauge
  • CVA:         Discussion on Cheap and Dirty Vacuum Measurement
  • CVA:         Sam's RF Discharge Color and Intensity Vacuum Test
  • CVA:     Sam's Vacuum Test Rig
  • CVA: Vacuum Components
  • CVA:     Vacuum Tubing
  • CVA:     Vacuum Seals and Sealers - Red Glyptal
  • CVA:     Vacuum Valves
  • CVA:         Steve's Notes on Inexpensive Vacuum Valves
  • CVA: Vacuum System Examples
  • CVA:     A Typical Vacuum System
  • CVA:     A Small High Vacuum System
  • CVA:     Leaks and Leak Testing
  • CVA: Sources for Vacuum Equipment and Supplies
  • CVA: Miscellaneous Vacuum Information
  • CVA:     Considerations for Gas Laser Filling/Regassing
  • CVA:     Mark's Notes on Vacuum Systems
  • CVA:     Inexpensive Filters for Home-Built Gas Lasers

  ---

  
  

  The Home-Built Laser Assembly and Power Supply

  • CLP: Introduction to Actual Laser Construction
  • CLP: The Laser Assembly and Optics
  • CLP:     Mounting the Laser Components
  • CLP:     Comments on Structural Materials for Laser Construction
  • CLP:     Optical Windows
  • CLP:     Determining Brewster angle
  • CLP:     Mirrors for Home-Built Lasers
  • CLP:     Adjustable Mirror Mounts
  • CLP:     Mirror Mount Precision and Repeatability
  • CLP:     Sources for Reasonably Priced Optics, Mounts, and Other Related Components
  • CLP:     Determining the Radius of an Ion or HeNe Laser Optic (Mirror)
  • CLP:     Comments on Acquiring Optics for Home-Built Lasers
  • CLP:     The Care and Handling of Laser Mirrors
  • CLP:     Properties of Optical Materials
  • CLP:     Salvaging Parts From a Laser Tube
  • CLP:     Cleaning Mounted Laser Mirrors
  • CLP:     Disassembling Cemented Optics
  • CLP:     Disassembling the WW-II Tank Periscope Prism
  • CLP:     Mounting Laser Mirrors
  • CLP:     Cutting Thin Mirrors
  • CLP:     Mounting Optics Using Adhesives
  • CLP:     Laser Beam Shutters
  • CLP: Power Supply Considerations for Home-Built Lasers
  • CLP:     Power Supply Components
  • CLP:     Neon Sign Transformer (NST) Characteristics
  • CLP:     Used Neon Sign Transformers - Cost, Recommended Brands, Testing, Availability
  • CLP:     Comments on High Power Frankenstein-Class Transformers
  • CLP:     Rewinding a Microwave Oven Transformer for use as a Low Voltage Filament Supply
  • CLP:     Variacs and Alternatives
  • CLP:     Variac Wiring
  • CLP:     A Treatise on Designing High Voltage Rectifiers
  • CLP:         Requirements and Design Considerations
  • CLP:         What Voltage?
  • CLP:         Voltage Sharing
  • CLP:         Example of Basic Design
  • CLP:         Transient Sharing
  • CLP:         Example of Transient Sharing
  • CLP:         Construction Tips
  • CLP:     Meters - Voltage and Current
  • CLP:     Measuring Current Pulses
  • CLP:     Fuses, Circuit Breakers, and Other Protection Devices
  • CLP:     Determining Bleeder Resistor Component Values
  • CLP:     SwitchMode Power Supply (SMPS) for Home-Built Lasers?
  • CLP:     Related Power Supply Information
  • CLP:     Triggered Spark Gaps

  ---

  
  

  Home-Built Laser Types, Information, and Links

  • CLT: Introduction to Descriptions and Designs of Home-Built Lasers
  • CLT:     What is in this Chapter?
  • CLT:     Home-Built Laser Description
  • CLT:     Which Laser to Build?
  • CLT:     Can I Use the Same Tube for Multiple Home-Built Lasers?
  • CLT:     Estimate of Home-Built Laser Output Power
  • CLT:     So, Maybe Constructing a Laser from Basic Elements Isn't for You?
  • CLT: Scientific American Articles on Lasers and Related Topics
  • CLT:     On-Line Access to the Scientific American Laser Articles
  • CLT:     CDROM with the SciAm Amateur Scientist Archive
  • CLT:     Light and its Uses - Complete Table of Contents

  ---

  
  

  Home-Built Helium-Neon (HeNe) Laser

  • CHN: Basic Home-Built HeNe Laser Information
  • CHN:     Introduction to Home-Built HeNe Laser
  • CHN:     Home-Built HeNe Laser Safety
  • CHN:     HeNe Laser Construction References and Links
  • CHN:     Home-Built HeNe Laser Description
  • CHN:     Guidelines to Assure a Successful Home-Built HeNe Laser
  • CHN: Other Examples of Home-Built HeNe Lasers
  • CHN:     K. L. Vander Sluis et. al. HeNe Laser
  • CHN: Additional Information on Home-Built HeNe Lasers
  • CHN:     Estimate of Home-Built HeNe Laser Output Power
  • CHN:     Why Not to use Quartz Windows for a Visible HeNe Laser
  • CHN:     Comments on Alignment Procedure in "Light and its Uses"
  • CHN:     Visually Checking the He:Ne Ratio to Test for Gas Fill Problems
  • CHN:     So You Want to Build a Green HeNe Laser?
  • CHN:     A Home-Built HeNe Laser Requiring No Glassworking?
  • CHN:     How about a 100 METER Long HeNe Laser?
  • CHN: Alternatives to Constructing an HeNe Laser from Scratch
  • CHN: Sam's Three Part Process for Getting Your Feet Wet in Gas Lasers
  • CHN:     Part 1: Regassing a Sealed HeNe Tube
  • CHN:     Part 2: Adding External Mirrors
  • CHN:     Part 3: Using Your Own HeNe Glass Work
  • CHN:     Sam's One-Brewster HeNe Laser Tube Conversion
  • CHN: Sam's DIY External Mirror HeNe Laser - Some Assembly Required!
  • CHN:     Description of the Home-Built Resonator
  • CHN:     Salvaging Some Mirrors
  • CHN:     Attempting Alignment 1
  • CHN:     Attempting Alignment 2
  • CHN:     Finally, Success (More or Less)!
  • CHN:     Comments on the Funny Two-Brewster HeNe Tube
  • CHN: Sam's Instant External Mirror Laser Using a One-Brewster HeNe Tube
  • CHN:     One-Brewster HeNe Laser Parts and Assembly
  • CHN:     Initial Tests and Mirror Evaluation
  • CHN:     Lasing Using Non-Laser Mirrors
  • CHN:     Demonstration One-Brewster HeNe Laser
  • CHN:     A Green One-Brewster HeNe Laser
  • CHN:     Sam's Tunable HeNe Laser (Hopefully)
  • CHN:     One-Brewster HeNe Laser Resonator Considerations
  • CHN: Other Things to Build with One-Brewster Laser Tubes or Heads
  • CHN:     One-Brewster HeNe Laser Heads in Tandem
  • CHN:     Mirror/Optics Test Jig Using One-Brewster HeNe Laser Tube
  • CHN:     HeNe Laser Tube Test Fixture
  • CHN: External Mirror Laser Using HeNe Tube with Missing Mirror Coating
  • CHN:     Persuading the Tube to Lase
  • CHN:     Obtaining Respectable Output Power
  • CHN:     Analysis of the Strange Behavior
  • CHN: Inexpensive Home-Built Frequency or Intensity Stabilized HeNe Laser
  • CHN:     Single Mode or Dual Mode Stabilized HeNe Laser
  • CHN:     Achieving High Performance in a Stabilized HeNe Laser
  • CHN:     Stabilizing a HeNe Laser Tube Using a Single Mode
  • CHN:     Sam's Stabilized Two-Frequency Helium-Neon Laser
  • CHN:     Sam's Home-Built SP-117 Compatible HeNe Laser
  • CHN:     Sam's Very Simple Stabilized HeNe Laser
  • CHN:     Sam's Simplest Stabilized Laser Controllers
  • CHN:     Sam's Laseangle RB-1 Stabilized HeNe laser Conversion
  • CHN:     Two-Frequency HeNe Lasers Based on Zeeman Splitting
  • CHN:         Two-Frequency Interferometer Laser Tester
  • CHN:     Installing a Common HeNe Laser Tube in an HP 5517 or 5501B
  • CHN:     Transverse Zeeman Stabilized HeNe Lasers
  • CHN:         Transverse Zeeman HeNe Laser Experiments
  • CHN:         Transverse Zeeman Laser Testbed 1
  • CHN:         Transverse Zeeman Laser Testbed 2
  • CHN:         Transverse Zeeman Laser Testbed 3
  • CHN:     Intensity Stabilized HeNe Laser
  • CHN:         Sam's Intensity Stabilized HeNe Laser Using External Modulator

  ---

  
  

  Home-Built Pulsed Argon and/or Krypton (Ar/Kr) Ion Laser

  • CAR: Basic Home-Built Ar/Kr Ion Laser Information
  • CAR:     Introduction to Home-Built Ar/Kr Ion Laser
  • CAR:     Home-Built Ar/Kr Ion Laser Safety
  • CAR:     Ar/Kr Ion Laser Construction References and Links
  • CAR:     Home-Built Ar/Kr Ion Laser Description
  • CAR:     Guidelines to Assure a Successful Home-Built Ar/Kr Ion Laser
  • CAR: Other Examples of Home-Built Ar/Kr Ion Lasers
  • CAR:     Mark Dinsmore's Ar/Kr Ion Laser
  • CAR:     Anthony Paolini's Ar/Kr Ion Laser
  • CAR:     Ron Ward's Ion Laser Experiences and Comments
  • CAR: Additional Information on Home-Built Ar/Kr Ion Lasers
  • CAR:     Estimate of Home-Built Ar/Kr Ion Laser Output Power
  • CAR:     Constructing a High Power Ar/Kr Ion Laser at Home?
  • CAR:     Credibility of the Argon Ion Laser from "Light and its Uses"
  • CAR: Alternatives to Constructing an Ar/Kr Ion Laser from Scratch
  • CAR:     Rebuilding an Ar/Kr Ion Tube
  • CAR:     The Half-Way Approach for a Home-Built Ar/Kr Ion Laser

  ---

  
  

  Home-Built Carbon Dioxide (CO2) Laser

  • CC2: Basic Home-Built CO2 Laser Information
  • CC2:     Introduction to Home-Built CO2 Laser
  • CC2:     More on the Effort Required and Recommended Power Output
  • CC2:     Home-Built CO2 Laser Safety
  • CC2:     CO2 Laser Construction References and Links
  • CC2:     Some Photos of Home-Built CO2 Lasers
  • CC2:     Home-Built CO2 Laser Description
  • CC2:     Guidelines to Assure a Successful Home-Built CO2 Laser
  • CC2:     Sources of Special Parts and Supplies for the Home-Built CO2 Laser
  • CC2: Other Examples of Home-Built CO2 Lasers
  • CC2:     Iannini CO2 Laser Description
  • CC2:     Chris Chagaris's CO2 Laser and Comments
  • CC2:         Update on Chris Chagaris's CO2 Laser
  • CC2:     Flavio's CO2 Laser Notes
  • CC2:     Steve Hardy's CO2 Laser and Comments
  • CC2:         Steve Hardy's Plans for His BIG CO2 Laser
  • CC2:     Mark's CO2 Laser and First Light
  • CC2:     Bill's CO2 Laser
  • CC2:     Rob's CO2 Laser
  • CC2:     Iwan's Co2 Laser
  • CC2: Additional Information on Home-Built CO2 Lasers
  • CC2:     Useful Formulas for CO2 Laser Optics
  • CC2:     Examples of CO2 Laser Resonator Configurations
  • CC2:     Determining Home-Built CO2 Laser Output Power
  • CC2:     Measuring CO2 Laser Beam Divergence
  • CC2:     Measuring CO2 Laser Beam Spot Size
  • CC2:     Discussion of CO2 Laser Construction
  • CC2:     Steve's Comments on CO2 Laser Electrodes
  • CC2:     Cooling CO2 Laser Optics and Comments on Germanium
  • CC2:     Beam Stop for CO2 Laser
  • CC2:     Brewster Windows for CO2 Laser?
  • CC2:     Comments on Gas Supply and Setup for Slow-Flow CO2 Lasers
  • CC2:     Regulating CO2 Gas Pressure and Flow Rate
  • CC2:     Air-Cooled CO2 Lasers
  • CC2:     Ignition Coil Based CO2 Laser Power Supply
  • CC2:     RF or Microwave Power Supply for CO2 Laser?
  • CC2:     Steve's Comments on Building an RF-Excited CO2 Laser
  • CC2:     CO2 Laser on a Budget?
  • CC2:     Chris Carlen's Notes on CO2 Laser Design and Construction
  • CC2:     Carl's Notes on CO2 Laser Design and Construction
  • CC2:     Tim's Comments on Home-Built CO2 Laser Construction
  • CC2:     Tony's Cautions About CO2 Laser Tube Construction
  • CC2:     Steve's Notes on Boosting CO2 Laser Power and Quality Construction
  • CC2:     Steve's Non-Standard Experiments with a CO2 Laser Head
  • CC2:     Terry's Comments on Effects of CO2 Laser Tube Size
  • CC2:     Flavio's Comments on Long CO2 Lasers Tubes
  • CC2:     John's Comments on Starting Out in Home-Built CO2 Laser Construction
  • CC2:     Tim's Comments on Experimenting with a CO2 Laser
  • CC2:     Chris's Comments on Sealed Tube, and Slow and Fast Flow CO2 Lasers
  • CC2: Alternatives to Constructing a CO2 Laser from Scratch
  • CC2:     For the Lazy at Heart - Almost Everything You Need - Oops, Too Late
  • CC2:     Home-Built CO2 Laser using Commercial Sealed Plasma Tube
  • CC2:     Why You Should Avoid the Temptation to Buy a Cheap Used CO2 Laser
  • CC2: Home-Built Transverse Excited Atmospheric CO2 Lasers
  • CC2:     What About a Home-Built TEA CO2 Laser?
  • CC2:     Discussion of Home-Built TEA CO2 Laser
  • CC2:     Power for that Really BIG Laser
  • CC2:     And If That's Not BIG Enough
  • CC2:     The TEA CO2 Laser That Might Have Been
  • CC2: Miscellaneous CO2 Laser and Related Tid-Bits
  • CC2:     Water (H2O) and Hydrogen Cyanide Lasers (HCN)
  • CC2:     How About a Home-Built Gas Dynamic CO2 Laser

  ---

  
  

  Home-Built Nitrogen (N2) Laser

  • CN2: Basic Home-Built N2 Laser Information
  • CN2:     Home-Built N2 Laser Safety
  • CN2:     Introduction to Home-Built N2 Laser
  • CN2:     N2 Laser Construction References and Links
  • CN2:     Thieu Asselbergs's N2 (Mostly) Laser Reference List
  • CN2:     Some Photos of Home-Built N2 Lasers
  • CN2:     Home-Built N2 Laser Description
  • CN2:     Guidelines to Assure a Successful Home-Built N2 Laser
  • CN2: Other Examples of Home-Built N2 Lasers
  • CN2:     Bruno Godard's N2 Laser
  • CN2:     David Grace's Air Lasers
  • CN2:     Robert Meagley's N2 Lasers
  • CN2:     Don Raphaelus's N2 Laser
  • CN2:     Hubert Pissavin's $10 Air Laser
  • CN2:     Bernhard Gruber's N2 Laser
  • CN2:     Andrew Baker's $4 N2 Laser
  • CN2:     Jon Singer's Low Cost Pseudo-TEA N2 Laser
  • CN2:     Jon Singer's High-Power Water-Cap Nitrogen Laser
  • CN2:     Jarrod Kinsey's N2 Lasers
  • CN2: Additional Information on Home-Built N2 Lasers
  • CN2:     Construction of the Capacitors for the N2 Laser Blumlein Pulse Circuit
  • CN2:     So Why Didn't Ben Franklin Build One of These?
  • CN2:     Power Supply Requirements for the N2 Laser
  • CN2:     Making Measurements on an N2 Laser
  • CN2:     Jon's Comments on the SciAm N2 Laser
  • CN2:     Comments on N2 Laser Construction
  • CN2:     Ray's Plans to Build an N2 Laser
  • CN2:     Rich's Comments on N2 Laser Safety, Home-Built Versus Commercial Unit, More
  • CN2:     Diane's Comments on Lasers of the N2 Type
  • CN2:     Increasing the Power Output of the N2 Laser
  • CN2:     Triggered Spark Gap for N2 Laser
  • CN2:     Why isn't There a CW N2 Laser?
  • CN2:     Troubleshooting a Home-Built N2 Laser
  • CN2:     How About an Air Laser?
  • CN2:     Operation Manual for a Real N2 Laser
  • CN2:     Why Aren't Surplus Nitrogen Lasers More Readily Available?
  • CN2:     Hydrogen Laser Using Blumlein Discharge
  • CN2:     Which Dye for N2 Laser Pumped Dye Laser?
  • CN2:     Rebuilding a Commercial N2 Laser
  • CN2:     Comments on N2 Laser Pulse Width
  • CN2: N2 Laser Humor and Other Tid-Bits
  • CN2:     HeHeHeHe! N2 Lasers Have All the Fun!
  • CN2:     Just What You Always Wanted!
  • CN2:     N2 Laser Construction on a Shoestring
  • CN2:     The Ultimate N2 Laser
  • CN2:     Victorian Nitrogen Laser

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  Home-Built Helium-Mercury (HeHg) Laser

  • CHG: Basic Home-Built HeHg Laser Information
  • CHG:     Introduction to Home-Built HeHg Laser
  • CHG:     Home-Built HeHg Laser Safety
  • CHG:     HeHg Laser Construction References and Links
  • CHG:     Photo of Home-Built HeHg Laser
  • CHG:     Home-Built HeHg Laser Description
  • CHG:     Guidelines to Assure a Successful Home-Built HeHg Laser
  • CHG:     Sources of Special Parts and Supplies for the Home-Built HeHg Laser
  • CHG: Other Examples of Home-Built HeHg Lasers
  • CHG:     David's HeHg Laser Design
  • CHG:     Status of Chris's HeHg Laser
  • CHG:     Mark's Helium-Selenium (HeSe) Laser
  • CHG: Additional Information on Home-Built HeHg and Other He-Metal-Vapor Lasers
  • CHG:     Estimating HeHg Laser Power
  • CHG:     HeHg Laser Sealed Tube Operation?
  • CHG:     Using a HeNe Laser Tube in a Home-Built HeHg Laser?
  • CHG:     Discussion of Potential Problems in Constructing HeHg Laser
  • CHG:     Comments on HeHg Lasers
  • CHG:     Discussion of Other Helium-Metal-Vapor Lasers
  • CHG:     Steve's Comments on HeHg Optics
  • CHG:     Hg:N2 (No Helium) Laser

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  Home-Built Copper Chloride (CuCl) and Copper Bromide Laser

  • CCB: Basic Home-Built CuCl/CuBr Laser Information
  • CCB:     Introduction to Home-Built CuCl and CuBr Laser
  • CCB:     Home-Built CuCl/CuBr Laser Safety
  • CCB:     CuCl/CuBr Laser Construction References and Links
  • CCB:     Papers and Links on Copper Vapor Lasers
  • CCB:     Some Photos of Home-Built CuCl/CuBr Lasers
  • CCB:     Home-Built CuCl/CuBr Laser Description
  • CCB:     Guidelines to Assure a Successful Home-Built CuCl/CuBr Laser
  • CCB: Other Examples of Home-Built CuCl/CuBr Lasers
  • CCB:     Chris's Copper Halide Laser
  • CCB:     Ben's Copper Bromide Laser
  • CCB: Additional Information on Home-Built CuCl/CuBr and Copper Vapor Lasers
  • CCB:     Comments on CuCl/CuBr Laser Construction
  • CCB:     Discussion on Construction of CuCl Laser
  • CCB:     Optimal Design of Copper Vapor Lasers
  • CCB:     More on Copper Vapor Laser Design and Commercial Tubes
  • CCB:     Comments on Temperatures Involved in CuCl Laser
  • CCB:     Discussion of CuCl Power Supply Design
  • CCB:     Solid State Pulsar for Home-Built Copper Chloride Laser
  • CCB:     Quasi-CW CuCl/CuBr Laser
  • CCB:     CuCl/CuBr Easy to Build?
  • CCB:     Super Simple Copper Vapor Laser
  • CCB:     Chris's Comments on CuCl Lasers
  • CCB:     Commercial Copper Vapor Laser
  • CCB:     Andi's Comments on Commercial CVL Operating Parameters and Procedure
  • CCB:     Maybe this One is still Available!
  • CCB:     Frequency Doubled Copper Vapor Lasers?
  • CCB:     Using a Copper Vapor (or CuCl/CuBr) Laser to Pump a Dye Laser
  • CCB:     General Comments on Metal Vapor Lasers
  • CCB:     High Power Copper Vapor Laser

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  Home-Built Dye Laser

  • CDY: Basic Home-Built Dye Laser Information
  • CDY:     Introduction to Home-Built Dye Laser
  • CDY:     Home-Built Dye Laser Safety
  • CDY:     Dye Laser Construction References and Links
  • CDY:     Some Photos of Home-Built Dye Lasers
  • CDY:     Home-Built Dye Laser Description
  • CDY:     Guidelines to Assure a Successful Home-Built Dye Laser
  • CDY:     Where to Obtain Dye Laser Dyes
  • CDY:     Anthony's Comments on the Home-Built Dye Laser and Parts Sources
  • CDY: Other Examples of Home-Built Dye Lasers
  • CDY:     Jon's Dye Laser and General Comments
  • CDY:     Jarrod Kinsey's Dye Laser
  • CDY: Additional Information on Home-Built Dye Lasers
  • CDY:     More on the Air Flashlamp
  • CDY:     Using a Xenon Flashlamp
  • CDY:     Discussion on Dye Laser Construction
  • CDY:     Dave's Comments and Improvements on Dye Laser
  • CDY:     Comments on Dye Laser Dye Concentration
  • CDY:     Incandescent Lamps or Other Light Sources to Pump Dye Laser?
  • CDY:     Mercury Vapor Lamps to Pump Dye Laser?
  • CDY:     Diode Laser to Pump Dye Laser
  • CDY:     Coaxial Dye Laser
  • CDY:     Operation Manual for a Real Dye Laser
  • CDY:     Jon's Comments on Some Dye Laser Issues
  • CDY: Dye Laser Tid-Bits
  • CDY:     The Jello Laser Legend
  • CDY:     Whiskey Dye Laser?
  • CDY:     Perspex as a Dye Laser Medium?

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  Home-Built Pulsed Multiple Gas (PMG) Laser

  • CMG: Basic Home-Built Pulsed Multiple Gas (PMG) Laser Information
  • CMG:     Introduction to Home-Built PMG Laser
  • CMG:     Home-Built PMG Laser Safety
  • CMG:     PMG Laser Construction References and Links
  • CMG:     Some Photos of Home-Built PMG Lasers
  • CMG:     Home-Built PMG Laser Description
  • CMG:     Assorted PMG Laser Physical and Electrical Data
  • CMG:     Guidelines to Assure a Successful Home-Built PMG Laser
  • CMG:     Sources of Special Parts and Supplies for the Home-Built Pulsed Multiple Gas (PMG) Laser
  • CMG:     Using Commercial HeNe or Ion Laser Tubes to Construct the PMG Laser
  • CMG: Other Examples of Home-Built PMG Lasers
  • CMG:     Daniel's Oxygen Laser
  • CMG:     Diane's Transverse Excited PMG Laser
  • CMG:     Mark Csele's Neon Laser
  • CMG: Power Supplies for the PMG Laser
  • CMG:     Simple Exciter
  • CMG:     Cascade System
  • CMG:     Typical Thyratron Specifications
  • CMG:     Alternatives to the Thyratron
  • CMG:     Other Power Supply Options
  • CMG:     High Voltage Connections, Gas Lines, and Water Cooling
  • CMG: Related PMG Laser Information
  • CMG:     Commercial Pulsed Gas Lasers
  • CMG:     Comments on the Oxygen Laser
  • CMG:     Steve's Summary of Various Pulsed Lasers
  • CMG:     Bruce's Comments on Various Pulsed Lasers
  • CMG:     Mike's Notes on Refilling a Pulsed Ion Laser

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  Home-Built Pulsed Solid State (PSS) Laser

  • CPS: Basic Home-Built PSS Laser Information
  • CPS:     Introduction to Home-Built PSS Laser
  • CPS:     Home-Built PSS Laser Safety
  • CPS:     PSS Laser Construction References and Links
  • CPS:     Home-Built PSS Laser Description
  • CPS:     Sources of Special Parts and Supplies for the Home-Built PSS Laser
  • CPS: Other Examples of Home-Built PSS Lasers
  • CPS:     Mini YAG Laser using SSY1 Optics and SG-SP1
  • CPS:     Chris's High Energy Dual Flashlamp Pumped Nd:YAG Laser
  • CPS:     Sinebar's Ruby Laser
  • CPS: Additional Information on Home-Built PSS Lasers
  • CPS:     Home-Built PSS Laser Alignment and Optimization
  • CPS:     Converting a Lamp Pumped IR YAG Laser to Green?
  • CPS:     Flashlamp Pumping of Composite Crystals

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  Home-Built Diode Pumped Solid State (DPSS) Laser

  • CDS: Basic Home-Built DPSS Laser Information
  • CDS:     Introduction to Home-Built DPSS Laser
  • CDS:     Home-Built DPSS Laser Safety
  • CDS:     DPSS Laser Construction References and Links
  • CDS:     Some Photos of Home-Built DPSS Lasers
  • CDS:     Home-Built DPSS Laser Description
  • CDS:     Green DPSS Lasers using Hybrid Crystals
  • CDS:         Super Simple Green DPSS Laser
  • CDS:         Even Simpler Instant Green DPSS Laser
  • CDS:         The CASIX DPM0101 and DPM0102
  • CDS:         The CASIX DPM1101 and DPM1102
  • CDS:         Some Tests of the DPM0101
  • CDS:         Some Tests of the DPM1101 and DPM1102
  • CDS:         Improving the Performance of Simple Green DPSS Lasers
  • CDS:         Joachim's Comments on Lasers Using Composite Crystals
  • CDS:     Component Selection Chart for Home-Built DPSS Lasers
  • CDS:     Basic Description of 100 mW-Class Cavity and Suggested Parts
  • CDS:     Sources of Special Parts and Supplies for the Home-Built DPSS Laser
  • CDS: Other Examples of Home-Built DPSS Lasers
  • CDS:     The Short Life of Greenie #1
  • CDS:     Steve's Nd:YLF Green DPSS Laser Conversion Project
  • CDS:     Mike's High Power DPSS Laser Project and Discussion
  • CDS:     Simon's High Power DPSS Laser Project and Discussion
  • CDS: Additional Information on Home-Built DPSS Lasers
  • CDS:     Building Your Own DPSSFD Laser
  • CDS:     DPSS Laser Input Power
  • CDS:     Easy High Power DPSS Laser?
  • CDS:     Mounting Laser Diode Bar Submodules and Bare Laser Diode Chips
  • CDS:         Procedure for Mounting Laser Diode Bar Submodules
  • CDS:         Procedure for Mounting Bare Laser Diode Chips
  • CDS:         Sam's High Performance Hot Plate for Low Temperature Soldering
  • CDS:     Laser Pump Diode Beam Correction
  • CDS:     Laser Pump Diode Beam Combining
  • CDS:     Vanadate and KTP Crystal Specs Versus Output Power
  • CDS:     Differences Between Flux and Hydrothermal KTP
  • CDS:     Mounting of DPSS Laser Components
  • CDS:     Mounting the Vanadate to Copper Plates
  • CDS:     Examples of Crystal Damage
  • CDS:     Drilling Tiny Holes
  • CDS:     Temperature Control of DPSS Laser Components
  • CDS:         Simple Temperature Controlled Fan
  • CDS:     Other Wavelengths to Pump Vanadate or YAG?
  • CDS:     Thermal Conductivity of Various Materials
  • CDS:     Crystal Orientation, Mode and Phase Matching
  • CDS:     Recovering the Backward Traveling Green Beam?
  • CDS:     Home-Built DPSS Laser Alignment and Optimization
  • CDS:     Initial DPSS Alignment Using a HeNe Laser
  • CDS:     Christoph's DPSS Laser Alignment Procedure
  • CDS:     Home-Built DPSS Laser Troubleshooting
  • CDS:     Flavio's Comments on Mounting and Alignment of the KTP Crystal
  • CDS:     Steve's Comments on Constructing High Power DPSSFD Lasers
  • CDS:     Stan's Notes on DPSSFD Laser Design
  • CDS:     Construction of Commercial DPSS Lasers
  • CDS:     Building a Blue DPSSFD Laser
  • CDS:     Growing Your Own Non-Linear Crystals?
  • CDS: Handy Little Programs
  • CDS:     Beam Waist Location and Spot Sizes (bwlss.c)
  • CDS:     Spot Sizes Versus Cavity Length for DPSS Laser (dpsscav.c)
  • CDS: Reconstruction of an 80 mW Green DPSSFD Laser
  • CDS:     Introduction to the Saga
  • CDS:     Description of the Laser
  • CDS:     In the Beginning
  • CDS:     Dave's Comments
  • CDS:     Sam's Comments
  • CDS:     Electrical Reconstruction
  • CDS:     Initial Testing
  • CDS:     Cavity Reconstruction:
  • CDS:     Continued Testing
  • CDS:     So What Was Wrong?
  • CDS:     The Revelation
  • CDS:     Things to Come
  • CDS:     Additional Modifications
  • CDS:     Reassembly and Testing
  • CDS:     More Rework and Fiddling

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  Sam's Laser FAQ, Copyright © 1994-2009, Samuel M. Goldwasser, All Rights Reserved.
  I may be contacted via the Sci.Electronics.Repair FAQ Email Links Page.

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