Glass, Volume 1 |
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Page 101
Activation by red light (610 nm) has been observed as an extreme example. The
time required for complete thermal bleaching at room temperature varies from
one minute to many months. 0ptical bleaching efficiency varies from slightly more
...
Activation by red light (610 nm) has been observed as an extreme example. The
time required for complete thermal bleaching at room temperature varies from
one minute to many months. 0ptical bleaching efficiency varies from slightly more
...
Page 109
This interpretation of optical bleaching is widely accepted in silver halide physics.
Moser and VanHeyningen (1966) cite the work of VanHeyningen and
Rosencranz showing that there is no photoresponse in undarkened silver halide
crystals ...
This interpretation of optical bleaching is widely accepted in silver halide physics.
Moser and VanHeyningen (1966) cite the work of VanHeyningen and
Rosencranz showing that there is no photoresponse in undarkened silver halide
crystals ...
Page 110
VL, vacuum level ; CBB, conduction band bottom; FL, fermi level; ftvmi„, lowest
frequency light which can lead to optical bleaching. since the vacuum level must
be continuous across the interface, both the vacuum level and the conduction ...
VL, vacuum level ; CBB, conduction band bottom; FL, fermi level; ftvmi„, lowest
frequency light which can lead to optical bleaching. since the vacuum level must
be continuous across the interface, both the vacuum level and the conduction ...
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Contents
Optical Absorption of Glasses | 7 |
Solid Solution Strengthening of FaceCentered Cubic Alloys | 8 |
Visible Absorption | 35 |
Copyright | |
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Common terms and phrases
absorption band Absorption spectrum alkali anisotropic annealing Araujo atoms binary birefringence bleaching bond borate glasses boron borosilicate glass Bray Brillouin Brillouin scattering calculations Ceram chalcogenide glasses Chem chloride coefficient colloid color composition concentration fluctuations coordination crystal crystalline cupric ion darkening density fluctuations dielectric constant dielectric relaxation diffusion distribution effect electron energy equilibrium experimental fade rate frequency frozen-in strain function glass systems glasses containing Griscom heat treatment increase indicated intensity irradiated Landau-Placzek ratio light scattering magnetic materials measured mole Mossbauer negative birefringence observed octahedral octahedral symmetry optical oxide glasses oxygen paramagnetic parameters 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 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
Bibliographic information
| Title | Glass, Volume 1 Treatise on Materials Science and Technology Glass, R. H. Doremus Treatise on Materials Science Vol 12 Glass, R. H. Doremus |
| Editors | Minoru Tomozawa, R. H. Doremus |
| Contributor | Minoru Tomozawa |
| Edition | illustrated |
| Publisher | Academic Press, 1977 |
| Original from | the University of Michigan |
| Digitized | 29 Nov 2007 |
| ISBN | 0123418127, 9780123418128 |
| Length | 349 pages |
| Subjects | › Glass Technology & Engineering / General Technology & Engineering / Materials Science |
| Export Citation | BiBTeX EndNote RefMan |