Foreword | |
International Program Committee | |
Symposium Welcome | |
Summary of Meeting | |
A Tribute to Dr. Arthur Guenther (1931-2007) | |
Fundamental Mechanisms | |
Nanospallation induced by a femtosecond laser pulse | |
Progress in the understanding of fracture related laser damage of fused silica | |
Photo-ionization of superlattices on dielectric surface by IR radiation | |
Does complex absorption behavior leading to conditioning and damage in KDP/DKDP reflect the electronic structure of initiators? | |
A model of laser-induced damage of KDP based on the coupling of statistics and heat transfer | |
Thermal mechanism of laser-induced damages in KDP crystals | |
Preliminary results on mitigation of KDP surface damage using the ball dimpling method | |
The effect of lattice temperature on surface damage in fused silica optics | |
Downstream intensification effects associated with CO[subscript 2] laser mitigation of fused silica | |
The exponential fitting of optical threshold and analyses of testing errors | |
Experimental and theoretical studies of subpieosecond laser damage in Ti[subscript x]Si[subscript 1-x]O[subscript 2] composite films | |
Effect of laser pulse duration on damage to metal mirrors for laser IFE | |
Surfaces, Mirrors, and Contamination | |
James Webb Space Telescope: a large deployable cryogenic telescope in space | |
Effects of wavelengths combination on initiation and growth of laser-induced surface damage in SiO[subscript 2] | |
Damage thresholds and morphology of the front- and back-irradiated SiO[subscript 2] thin films containing gold nanoparticles as artificial absorbing defects | |
Growth of laser damage in fused silica: diameter to depth ratio | |
Extended lifetime of fluoride optics | |
Analysis of output surface damage resulting from single 351 nm, 3 ns pulses on sub-nanosecond laser conditioned KD[subscript 2]PO[subscript 4] crystals | |
Damage characteristics at optical fiber connector for high power light transmission | |
High laser damage threshold surface relief micro-structures for anti-reflection applications | |
Revisiting mechanisms of molecular contamination induced laser optic damage | |
Optimizing a cleaning process for multilayer dielectric (MLD) diffraction gratings | |
Fluorescence monitoring of organic deposits | |
Operational experience of contamination and damage of the larger aperture optics in the HELEN laser facility vacuum system at 1053 and 527 nanometres | |
Studies on thin films as short pulse laser debris shields | |
Thin Films | |
A laser preconditioning process for improving the laser damage threshold, and the search for subtle laser damage from long-duration laser exposure for IBS thin films | |
Laser damage of silica and hafnia thin films made with different deposition technologies | |
Performance enhancement of ion beam sputtered oxide coatings for 193 nm | |
Mixed oxide coatings for advanced fs-laser applications | |
Effect of electric-field distribution on the laser damage probability curves of multilayer coatings | |
Laser-induced damage of multilayer high-reflectance coatings for 248 nm | |
Influence of process conditions on the optical properties of HfO[subscript 2]/SiO[subscript 2] coatings for high-power laser coatings | |
Influence of electric field distribution on laser induced damage threshold and morphology of high reflectance optical coatings | |
Short pulse laser damage measurements of pulse compression gratings for petawatt laser | |
Materials and Measurements | |
Final optics damage inspection (FODI) for the National Ignition Facility | |
The relationship between laser fluence profile and the cumulative probability of damage curve | |
Comparative studies of laser-induced damage threshold measurements in highly reflecting mirrors | |
Comparison of Gaussian and top-hat beam profiles in LIDT testing | |
Comparison between S/1 and R/1 tests and damage density vs. fluence ([rho]([phi])) results for unconditioned and sub-nanosecond laser-conditioned KD[subscript 2]PO[subscript 4] crystals | |
Laser damage investigation in KTiOPO[subscript 4] (KTP) and RbTiOPO[subscript 4] (RTP) crystals: threshold anisotropy and the influence of SHG | |
Influence of laser beam size and wavelength in the determination of LIDT and associated laser damage precursor densities in KH[subscript 2]PO[subscript 4] | |
Laser damage metrology in biaxial nonlinear crystals using different test beams | |
Scaling in damage of optical materials by intensive laser radiation | |
Pump and probe damage testing for investigation of transient material modifications associated with laser damage in optical materials | |
Measurement of initial absorption of fused silica at 193nm using laser induced deflection technique (LID) | |
A novel photo-thermal setup for evaluation of absorption losses and thermal wavefront deformations in DUV optics | |
Spectrally resolved laser calorimetric absorptance measurements | |
Photothermal detuning: a sensitive technique for absorption measurement of optical thin films | |
Effect of instrumental response time in exponential-decay-based cavity ring-down techniques for high reflectivity measurement | |
High-resolution 3D imaging of surface damage sites in fused silica with optical coherence tomography | |
Selective cancellation of scattered light in optical substrates and coatings | |
Scattering-induced downstream beam modulation by plasma scalded mirrors | |
Effect of random clustering on surface damage density estimates | |
248 nm high fluence irradiation of CaF[subscript 2] crystals | |
Comparison of ns and sub-ns laser conditioning of KDP and DKDP crystals for high-power lasers | |
Optical damage threshold of silicon for ultrafast infrared pulses | |
Study of haze in artificially grown single crystal CaF[subscript 2] | |
Mini Symposium: Lifetime Issues for CW and Quasi CW Lasers | |
Optical damage observed in the LHMEL II output coupler | |
Effect of S and P polarization on single layer homogeneous model | |
Abstracts | |
Author Index | |
Table of Contents provided by Blackwell. All Rights Reserved. |
The New copy of this book will include any supplemental materials advertised. Please check the title of the book to determine if it should include any access cards, study guides, lab manuals, CDs, etc.
The Used, Rental and eBook copies of this book are not guaranteed to include any supplemental materials. Typically, only the book itself is included. This is true even if the title states it includes any access cards, study guides, lab manuals, CDs, etc.