Selfconsistent calculation of the Peierls instability in quasi-one-dimensional conductors

2 October 1973

journal article
Published by IOP Publishing in Journal of Physics C: Solid State Physics

Vol. 6 (19) , L367-L370
https://doi.org/10.1088/0022-3719/6/19/003

Abstract

The selfconsistent tight-binding theory of the electron-phonon interaction is applied to the problem of the phonon softening in K₂Pt(CN)₄Br_0.3.3H₂O. Of all phonon modes with the component of the wavevector along the chain equal to twice the one-dimensional Fermi wavevector k_F, the softest (critical) one appears to be that with the shortest wavelength.

Keywords

TIGHT BINDING

This publication has 6 references indexed in Scilit:

Superconducting fluctuations and the peierls instability in an organic solid
Solid State Communications, 1973
Observation of Giant Kohn Anomaly in the One-Dimensional Conductor $K_{2}$ Pt ${(CN)}_{4}$ ${Br}_{0.3}$ · 3 $H_{2}$ O
Physical Review Letters, 1973
Phonon dispersion in systems with a planar Fermi surface
Solid State Communications, 1972
Anisotropic thermopower in the quasi-one-dimensional conductor K2Pt(CN)4Br0.3·3H2O
Solid State Communications, 1972
Self-Consistent Electron-Phonon Coupling in the Tight-Binding Approximation. II
Physical Review B, 1972
Électrons et phonons dans l’approximation des liaisons fortes
Annales de Physique, 1972