The normal-to-planar superfluid transition in Helium 3

Abstract

We study the nature of the Helium-3 superfluid transition from the normal to the planar phase, which is expected to be stabilized by the dipolar interactions. We determine the RG flow of the corresponding Landau-Ginzburg-Wilson theory by exploiting two fixed-dimension perturbative schemes: the massive zero-momentum scheme and the minimal-subtraction scheme without ε expansion. The analysis of the corresponding six-loop and five-loop series shows the presence of a stable fixed point in the relevant coupling region. Therefore, we predict the transition to be continuous. We also compute critical exponents. The specific-heat exponent α is estimated as α = 0.20(15), while the magnetic susceptibility and magnetization exponents γH and βH for Helium 3 are γH = -0.34(5), βH = 1.07(9).

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