Violation of the orbital depairing limit in a non-unitary state --on the high field phase in the heavy Fermion superconductor UTe2--

Abstract

A theoretical study is reported on the origin of extremely high upper critical field 70T observed in UTe2 with the transition temperature T c=1.6K-2K, far exceeding the conventional orbital depairing limit set by the Fermi velocity and T c for a superconductor (SC) in the clean limit. We investigate possible violation of the orbital limit in terms of a spin-triplet nonunitary state, which is effectively coupled to the underlying magnetization induced by external field. This in turn produces the reduced internal field by cancelling it via magnetization. We formulate a theory within Ginzburg-Landau framework to describe this orbital limit violation and analyze experimental data on the upper critical fields for various field orientations in UTe2. It is pointed out that the orbital limit violation for a spin-triplet SC together with the Pauli-Clogston limit violation for a spin-singlet SC constitutes a complete and useful framework to examine the high field physics in superconductors in the clean limit.