Modeling of Optical Thin Films: 20-21 August 1987, San Diego, CaliforniaMichael Ray Jacobson |
Contents
MICROSTRUCTURE MODELS | 67 |
NUCLEATION AND MULTICOMPONENT MODELS | 105 |
PANEL DISCUSSION Impact of recent computer compatibility growth on optical coating models | 141 |
Copyright | |
4 other sections not shown
Common terms and phrases
adatom amorphous angle of incidence anisotropy Appl atoms average band gap beam birefringence bulk calculated cluster colloidal columns computer simulation constant crystal crystalline curve deposition rate dielectric dimensional effects equation ERSITY evaporation evolution experimental Figure film microstructure film thickness flux free energy function grain boundary grain growth hard spheres impinging increases interactions kcal/mol laser lattice layer Leamy Macleod materials Messier microns microstructure mobility mode molecular dynamics morphology Muller multilayer nodule nucleation nucleation and growth optical coatings optical properties OPTICAL THIN FILMS packing density parameters particles Phys potential predicted Proc radial distribution function random RE-TM refractive index rugate filter SAN DIEGO scale scattering seed shown in Fig shows simulated films solvent SPIE sputter deposition sputtered studies substrate substrate temperature surface diffusion T/Tm Technol thermal thin film deposition Thin Solid Films trajectories two-dimensional UNIVERSITY vacancy values vapor deposition voids wavelength