Minority Spin Condensate in Spin-Polarized Superfluid 3He-A1 Phase

Abstract

The spin-polarized superfluid 3He A1 phase, which forms below 3 mK in external magnetic field, serves as a material in which theoretical notions of fundamental magnetic processes and macroscopic quantum spin phenomena may be tested. Conventionally, the superfluid component of the A1 phase is understood to contain only the majority spin condensate having energetically-favoured paired spins directed along the external field and no minority spin condensate having paired spins in the opposite direction. We have developed a novel mechanical spin density detector to measure the spin relaxation in the A1 phase as functions of temperature, pressure and magnetic field. The mechanical spin detector is based in principle on the unique magnetic fountain effect occurring only in the A1 phase (occurring between two transition temperatures, Tc1 and Tc2). Unexpectedly, the spin relaxation rate increases rapidly as the temperature is decreased towards Tc2. Our measurements, together with Leggett-Takagi and Monien-Tewordt theories, demonstrate that a minute presence of minority spin pairs is responsible for the unexpected spin relaxation phenomena in A1 phase.

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