Laser Induced Damage in Optical MaterialsBrian E. Newnam, David Milam ASTM International, 1986 - 444 pages |
From inside the book
Results 1-5 of 60
Page v
... Thermal Heating ......... R. Rujkorakarn , L. S. Hsu , and C. Y. She Time Resolved Raman Studies of Laser Induced Damage in TiO2 Optical Coatings ........ G. J. Exarhos and P. L. Morse Ultraviolet Thin Film Coating Characterization ...
... Thermal Heating ......... R. Rujkorakarn , L. S. Hsu , and C. Y. She Time Resolved Raman Studies of Laser Induced Damage in TiO2 Optical Coatings ........ G. J. Exarhos and P. L. Morse Ultraviolet Thin Film Coating Characterization ...
Page vi
Brian E. Newnam, David Milam. Thermal Properties of Optical Thin Film Materials ... D. L. Decker , L. G. Koshigoe , and E. J. Ashley Interface and Bulk Absorption of Oxide Layers and Correlation to Damage Threshold at 1.06 μm ........ D ...
Brian E. Newnam, David Milam. Thermal Properties of Optical Thin Film Materials ... D. L. Decker , L. G. Koshigoe , and E. J. Ashley Interface and Bulk Absorption of Oxide Layers and Correlation to Damage Threshold at 1.06 μm ........ D ...
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Contents
Glass Laser System with Liquid Crystal Polarizers | 15 |
Nonlinear Rotatory Power of 90 Twisted Nematic Liquid Crystals | 23 |
Picosecond Damage in Y 0 Stabilized Cubic Zirconia | 31 |
CR GSGG Crystal | 39 |
Laser Damage Studies of Several Methacrylate Polymeric Materials | 49 |
Leed Analysis of Pulsed Laser Damage to Mo 100 Surfaces | 59 |
The Effect of Defects on the Laser Damage Performance of Metal Mirror Surfaces | 66 |
Application of a ComputerAutomated IR Sensitive Camera to the Determination | 77 |
Pulse Duration Dependence of 1064nm Laser Damage Thresholds of Porous Silica | 211 |
Variation of Transmittance Spectra of Porous Antireflection Coatings with Index Profile | 217 |
Characterization of Aluminum NitrideAluminum Oxide Reactively Sputtered | 233 |
Crystallization of Titania Films by Thermal Heating | 253 |
Time Resolved Raman Studies of Laser Induced Damage in TiO2 Optical Coatings | 262 |
Ultraviolet Thin Film Coating Characterization | 272 |
Effect of Overcoats on 355nm Reflectors | 285 |
Thermal Properties of Optical Thin Film Materials | 291 |
HighPrecision DamageResistant MultiplePass Ultraviolet Reflectometer | 85 |
A Low Loss High Power Variable Laser Attenuator | 93 |
Studies of CO2 Laser Induced Damage to Infrared Optical Materials and Coatings | 100 |
Surface Potential as a Laser Damage Diagnostic | 116 |
Laser Generated Ripple Patterns on Dielectrics and Intermediate Band Gap Semiconductors | 137 |
Surface Damage Mechanisms in Nontransparent Media | 147 |
PicosecondPulse Damage Studies of Diffraction Gratings | 154 |
Thin Films | 162 |
Some Recent Observations on the Properties of UHVDeposited Zr02 | 171 |
Oxygen Threshold for IonBeam Sputter Deposited Oxide Coatings | 180 |
Tomorrows Coatings TodayThey Need Help | 187 |
High Damage Threshold Porous Silica Antireflective Coating | 205 |
Interface and Bulk Absorption of Oxide Layers and Correlation to Damage Threshold | 298 |
Effect of Anistropic Stress on Thin Film Damage Thresholds | 313 |
Design of High Power Laser Coatings for Grazing Incidence Mirrors | 322 |
The Design of Optimum High Reflectivity Coatings | 330 |
Angular Dependence of MultilayerReflector Damage Threshold | 342 |
Survey of Laser Damage Thresholds for High Reflector Films at 1 315 Microns | 352 |
Single Pulse Laser Induced Damage in IR Coatings at 10 6 μm | 371 |
Light Stripping of UV Dielectric Coatings | 377 |
SelfFocusing in Damage Experiments Revisited | 394 |
TwoPhoton Absorption Nonlinear Refraction and Optical Limiting in Semiconductors | 404 |
List of Attendees | 424 |
Common terms and phrases
absorption anatase angle of incidence antireflection antireflection coatings Appl attenuator band gap breakdown bulk charge emission coefficient curve damage morphology damage resistance damage sites damage testing damage threshold defects density deposition detector diameter dielectric effect electric field electron beam energy experimental fluence fused silica GSGG Guenther High Power Lasers increase indicated intensity interface ion beam Laboratory laser beam Laser Induced Damage laser pulses layer liquid crystal magnesium fluoride measured microscopy mirror multilayer Nd:YAG Newnam Nomarski nonlinear observed obtained optical coatings Optical Materials overcoat oxide oxygen peak phase Phys polarization probe produced pulsed laser radiation Raman reflectance reflectors refractive index ripple rutile S-polarized sample scanning scatter self-focusing shown in figure silicon spatial spectra sputter deposited sputtering stack stoichiometry structure substrate surface potential Symposium technique temperature thermal thickness thin film transmission transmittance two-photon absorption values wavelength ZnSe ZrO2