## Glass, Volume 1 |

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Results 1-3 of 26

Page 170

Following the above discussion and inserting the correct temperatures into Eq. (

37) we obtain an expression of the mean square

glass (Schroeder et al., 1973) <|Apk|2> = (p2kB/V){Tf(KT,0 - Ks,0) + Tf[Ks,0 - (pii.

Following the above discussion and inserting the correct temperatures into Eq. (

37) we obtain an expression of the mean square

**density fluctuations**valid for aglass (Schroeder et al., 1973) <|Apk|2> = (p2kB/V){Tf(KT,0 - Ks,0) + Tf[Ks,0 - (pii.

Page 185

In order to be able to study only the part due to concentration fluctuations the

broad background, attributable to

of Eq. (39). High-temperature ultrasonic data (Bockris et al., 1955; Bockris and ...

In order to be able to study only the part due to concentration fluctuations the

broad background, attributable to

**density fluctuations**, was calculated with the aidof Eq. (39). High-temperature ultrasonic data (Bockris et al., 1955; Bockris and ...

Page 198

LP + 1) (74) and where p is the density, X the wavelength of the laser, P12 the

longitudinal Pockels' coefficient, vL o0 the longitudinal ... First, it is necessary to

consider the influence of this minor constituent on the

LP + 1) (74) and where p is the density, X the wavelength of the laser, P12 the

longitudinal Pockels' coefficient, vL o0 the longitudinal ... First, it is necessary to

consider the influence of this minor constituent on the

**density fluctuations**.### What people are saying - Write a review

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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