Microscopic Theory of the Phase Transitions in Rochelle Salt

1 November 1972

journal article
research article
Published by Physical Society of Japan in Journal of the Physics Society Japan

Vol. 33 (5) , 1381-1389
https://doi.org/10.1143/jpsj.33.1381

Abstract

Local field at general positions in Rochelle salt crystals is considered on the basis of the symmetry. The variation in dipole moments on each sublattice caused by applied electric field is obtained. The conditions for the instability of dipole arrangement are given for P2 ₁2 ₁2, P2 ₁11, P12 ₁1, P112 crystals in terms of susceptibility of dipolar radicals and Lorentz factors. The nature of electrostatic interaction energy of Rochelle salt is clarified, by taking into account the dipole-dipole interaction as well as the dipole-charge interaction between sublattices and also the electronic polarizability of ions situated on the two-fold axes along the c direction. Some coefficients which appear in Mitsui theory are reexamined under the light of the present results.

Keywords

This publication has 6 references indexed in Scilit:

The Role of Lorentz Factors in Rochelle Salt
Journal of the Physics Society Japan, 1972
Superstructure in the Ferroelectric Phase of Ammonium Rochelle Salt
Journal of the Physics Society Japan, 1971
${Na}^{23}$ Quadrupole Interaction in Ferroelectric Rochelle Salt
Physical Review B, 1966
${Na}^{23}$ Magnetic-Resonance Study of the Ferroelectric Transition in Rochelle Salt
Physical Review B, 1964
Theory of the Ferroelectric Effect in Rochelle Salt
Physical Review B, 1958
Ferroelectricity of NaNH₄-Tartrate
Journal of the Physics Society Japan, 1958