Direction of Paired Spins in the $A_{1}$ Phase of ${}^{3}{He}$ : A Test of the Paramagnon-Induced-Pairing Hypothesis

21 April 1975

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

Vol. 34 (16) , 1002-1005
https://doi.org/10.1103/physrevlett.34.1002

Abstract

It is shown within the context of simple paramagnon theory that if spin fluctuations are responsible for the pairing in superfluid

{}^{3}{He}

, then the direction of paired spins in the

A_{1}

phase should be opposite to that of the field-induced magnetization in the normal state, in contradiction to predictions made using weak-coupling theory. Measurements of the direction of paired spins in the

A_{1}

phase can thus help to test the paramagnon-pairing hypothesis.

Keywords

This publication has 9 references indexed in Scilit:

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Physical Review A, 1974
Effects of Magnetic Field on the " $A$ " Transition in Liquid ${}^{3}{He}$
Physical Review A, 1973
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Physical Review Letters, 1973
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Physical Review Letters, 1973
Nuclear susceptibility of liquid He3?II
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Direction of Paired Spins in theA1Phase ofHe3: A Test of the Paramagnon-Induced-Pairing Hypothesis

Abstract

Keywords

Direction of Paired Spins in the $A_{1}$ Phase of ${}^{3}{He}$ : A Test of the Paramagnon-Induced-Pairing Hypothesis