Thermal conductivity of nonunitary triplet superconductors: application to UTe2

Abstract

There is considerable evidence that the heavy fermion material UTe2 is a spin-triplet superconductor, possibly manifesting time-reversal symmetry breaking, as measured by Kerr effect and muon spin resonance experiments below the critical temperature, in some samples. Such signals can arise due to a chiral orbital state, or possible nonunitary pairing. Although experiments at low T appear to be consistent with point nodes in the spectral gap, the detailed form of the order parameter and even the nodal positions are not yet determined. Thermal conductivity measurements can extend to quite low temperatures, with varying heat current direction can therefore provide information on the order parameter structure. Here we derive a general expression for the thermal conductivity of a spin triplet superconductor, and use it to compare the low-temperature behavior of various states proposed for UTe2.