Mutual Friction in Superfluid He4 Near the λ-line

Abstract

We present experimental results for the thermal resistivity of superfluid He4 along several isobars between saturated vapor pressure and the melting pressure. The measurements are for the temperature range 1 - Tc(q)/Tλ < t < 2×10-5 and the heat-flux range 3 < q < 70 μW/cm2. Here t 1-T/Tλ, Tλ is the transition temperature in the limit of zero q, and Tc is the transition temperature at finite q. The data suggest that the resistivity has an incipient singularity at Tλ which can be described by the power law = (t/t0)-(m+α) where t0 = (q/q0)x. However, the singularity is supplanted by the transition to a more highly dissipative phase at Tc(q) < Tλ. The results suggest a mild dependence of m + α on P, but can be described quite well by m + α = 2.76, x = 0.89, and q0 = q0,0 - q0,1P with q0,0 = 401 W/cm2 and q0,1 = -5.0 W /cm2-bar. The results imply that the Gorter-Mellink mutual friction exponent m has a value close to 3.46 and is distinctly larger than the classical value m = 3. We suggest that the reason for this may be found in the nature of the counterflow close to Tλ, which is expected to involve turbulent normalfluid flow.