Mashiyama Hiroyuki
Affiliate Master
Yamaguchi University
Quantum susceptibility for structural transitions based on exact solutions of the Schrodinger equation
Ferroelectrics Volume 349
Page 10-15
published_at 2007-04
Title
Quantum susceptibility for structural transitions based on exact solutions of the Schrodinger equation
Creator Keywords
exact solution of the Schrodinger equation
zero point energy
energy barrier
two-Morse potential
susceptibility
Barrett equation
p-T phase diagram
The static susceptibility of a quantum system is considered to discuss the structural phase transition. The linear response theory is applied with assuming a mean field treatment for the interaction between unit cells. The energy eigen state is solved exactly for the Schrodinger equation of a single particle within a two-Morse type self-potential. The parameter dependence of the transition temperature is discussed analytically, which will give a general insight into the structural phase transition. The pressure-temperature phase diagram for KDP-type crystal is constructed theoretically.
Languages
eng
Resource Type
journal article
Publishers
Taylor and Francis
Date Issued
2007-04
File Version
Author’s Original
Access Rights
open access
Relations
[ISSN]0015-0193
[NCID]AA00644949
[isPartOf]
[URI]http://www.tandf.co.uk/journals/titles/00150193.asp
Schools
大学院理工学研究科(理学)