Mass flux characteristics in solid 4He for T> 100 mK: Evidence for Bosonic Luttinger Liquid behavior

Abstract

At pressure 25.7 bar the flux, F, carried by solid \4he for T > 100 mK depends on the net chemical potential difference between two reservoirs in series with the solid, μ, and obeys F ( μ)b, where b ≈ 0.3 is independent of temperature. At fixed μ the temperature dependence of the flux, F, can be adequately represented by F - (T/τ), τ ≈ 0.6 K, for 0.1 ≤ T ≤ 0.5 K. A single function F = F0( μ)b(T/τ) fits all of the available data sets in the range 25.6 - 25.8 bar reasonably well. We suggest that the mass flux in solid \4he for T > 100 mK may have a Luttinger liquid-like behavior in this bosonic system.