Phase transitions of spin polarized 3He : a thermodynamical nuclear orientation technique ?

1 January 1979

journal article
Published by EDP Sciences in Journal de Physique

Vol. 40 (3) , 257-268
https://doi.org/10.1051/jphys:01979004003025700

Abstract

Completely polarized 3He behaves in many respects very differently from normal 3He. In principle it can be obtained by purely thermodynamical methods, starting from a strongly polarized solid (by a magnetic field at very low temperature), as long as the overall experimental time is less than T1, the magnetic relaxation time. We discuss the crucial points of such an experiment — dependence of liquid 3He energy on magnetization, value of T1 — and the new experimental possibilities it opens. In particular completely polarized 3He appears as the best chance to observe a vacancy solid phase, first described by A. Andreev and I. M. Lifshitz

Keywords

This publication has 11 references indexed in Scilit:

The preferential adsorption of 4He from 3He-4He mixtures onto Vycor glass
Journal of Low Temperature Physics, 1978
Thermodynamic study of magnetically ordered solid 3He
Journal de Physique Lettres, 1978
Magnetization of Solid ${}^{3}{He}$ through the Nuclear Ordering Temperature
Physical Review Letters, 1977
Nuclear spin ordering of solid3He in applied magnetic fields
Journal of Low Temperature Physics, 1977
Spin polarons in narrow, almost half-filled s band : A valid concept in b.c.c. 3He ?
Journal de Physique Lettres, 1977
Nuclear spin–lattice relaxation of ³He on neon surfaces
Canadian Journal of Physics, 1976
Very Long ${}^{3}{He}$ Nuclear Relaxation Times at 4 K Using Cryogenic Coatings
Physical Review Letters, 1975
Observation of Nuclear Magnetic Order in Solid ${}^{3}{He}$
Physical Review Letters, 1974
Temperature Dependence of the Spin Susceptibility of a Nearly Ferromagnetic Fermi Liquid
Physical Review Letters, 1968
Ground State of Liquid Helium-4 and Helium-3
Physical Review B, 1967