Network dynamics

15 September 1980

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 22 (6) , 3078-3092
https://doi.org/10.1103/physrevb.22.3078

Abstract

A Lagrangian formalism is set up within which the vibrational spectrum of any covalently bonded network with nearest-neighbor central forces can be discussed. The covalent bonds are used as directions that define coordinate axes at each site. The nonorthogonality and in some cases overcompleteness of the displacements is taken care of in a simple way within the Lagrangian formulation. It is shown that the vibrational eigenvalues can be obtained from the corresponding quantities for the connectivity matrix of the network. This allows the spectral limits delineating the allowed spectral regions to be found, and their dependence on the masses and bond angles is simply exposed.

Keywords

This publication has 21 references indexed in Scilit:

Band limits and the vibrational spectra of tetrahedral glasses
Physical Review B, 1979
Raman and infrared spectra of vitreous ${As}_{2}$ $O_{3}$
Physical Review B, 1979
Effect of second-nearest-neighbor forces on the vibrations of amorphous Si $O_{2}$
Physical Review B, 1978
Phonons in amorphous silica
Physical Review B, 1977
Phonons in $A X_{2}$ glasses: From molecular to band-like modes
Physical Review B, 1977
Longitudinal Optical Vibrations in Glasses: Ge $O_{2}$ and Si $O_{2}$
Physical Review Letters, 1976
The dynamics of disordered lattices
Reports on Progress in Physics, 1972
A molecular model for the vibrational modes in chalcogenide glasses
Journal of Non-Crystalline Solids, 1972
The Vibrational Properties of Disordered Systems: Numerical Studies
Reviews of Modern Physics, 1972
Localization of normal modes in vitreous silica, germania and beryllium fluoride
Journal of Physics C: Solid State Physics, 1970