Non-unitary triplet superconductivity tuned by field-controlled magnetization --URhGe, UCoGe and UTe2--

Abstract

We report on theoretical studies on ferromagnetic superconductors, URhGe, and UCoGe and identifies the pairing state as a non-unitary spin-triplet one, analogous to superfluid 3He-A phase. A recently found superconductor UTe2 with almost ferromagnet is analyzed by the same manner. Through investigating their peculiar upper critical field H c2 shapes, it is shown that the pairing symmetry realized in all three compounds can be tuned by their magnetization curves under applied fields. This leads to the reentrant H c2 in URhGe, an S-shaped in UCoGe and an L-shaped H c2 in UTe2 observed under the field direction parallel to the magnetic hard axis in orthorhombic crystals in common. The identification with double chiral form: d(k)=(b+ic)(kb+ikc) in UTe2 naturally enables us to understand (1) multiple phases with A1, A2, and A0 phases observed under pressure, (2) the enhanced reentrant H c2 for the off-axis direction fields associated with first order meta-magnetic transition, and (3) Weyl point nodes oriented along the a-axis. All three compounds are found to be topologically rich solid-state materials worth further investigation.

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