Glass, Volume 1Minoru Tomozawa, R. H. Doremus |
From inside the book
Results 1-3 of 58
Page 16
... wavelengths . Optical absorption in the 0.15-0.20 - μm wavelength range was observed to increase linearly with alkali content while the absolute intensity increased in the order Li , Na , and K for a given alkali concentration con ...
... wavelengths . Optical absorption in the 0.15-0.20 - μm wavelength range was observed to increase linearly with alkali content while the absolute intensity increased in the order Li , Na , and K for a given alkali concentration con ...
Page 107
... wavelength of maximum absorption of a spherical silver particle in silver halide should be about 4800 Å . If the particle is not spherical , the absorption band splits into two components . The absorption , which occurs when the ...
... wavelength of maximum absorption of a spherical silver particle in silver halide should be about 4800 Å . If the particle is not spherical , the absorption band splits into two components . The absorption , which occurs when the ...
Page 108
... wavelength of maximum absorptions versus elongation ratio for oblate ellipsoids . 0.6 0.5 0.4 0.3 0.2 0.10 400 500 600 X ( nm ) 700 Fig . 5. Change in absorption as a function of wavelength due to optical bleaching . ABL 607 mμm ; 0.05 ...
... wavelength of maximum absorptions versus elongation ratio for oblate ellipsoids . 0.6 0.5 0.4 0.3 0.2 0.10 400 500 600 X ( nm ) 700 Fig . 5. Change in absorption as a function of wavelength due to optical bleaching . ABL 607 mμm ; 0.05 ...
Contents
Text | 8 |
Ultraviolet Absorption | 10 |
Methods of Measuring Surface Texture | 30 |
Copyright | |
49 other sections not shown
Common terms and phrases
absorption band alkali anisotropic annealing Araujo atoms binary birefringence bleaching bond borate glasses boron borosilicate glass Bray Brillouin Brillouin scattering calculations Ceram chalcogenide glasses Chem coefficient colloid color composition concentration fluctuations coordination copper crystal crystalline darkening density fluctuations dielectric constant dielectric relaxation diffusion distribution effect electron energy equilibrium experimental fade rate Fe3+ frequency frozen-in strain function GeO2 glasses containing Griscom heat treatment increase indicated intensity irradiated Landau-Placzek ratio light scattering measured microstructural birefringence mole Mössbauer Na₂O negative birefringence observed octahedral octahedral symmetry optical oxide glasses oxygen paramagnetic particles phase separation phonons phosphate glasses photochromic photochromic glasses Phys polarization positive birefringence Raman Rayleigh relaxation resonance sample Schroeder shift shown in Fig silicate glasses silver halide SiO2 sodium Solids spectra spectrum spin-lattice relaxation spinodal stretching structural studied Takamori Taylor temperature thermal tion Tomozawa transition trapped ultraviolet unpublished results vibrational viscosity wavelengths