Nonreciprocal current in noncentrosymmetric Rashba superconductors

Abstract

Noncentrosymmetric superconductors with broken inversion symmetry P offer rich physical phenomena such as the upper critical magnetic field Hc2 beyond the Pauli limit and magnetoelectric effect. The relativistic spin-orbit interaction (SOI) plays an essential role in these novel phenomena, which lifts the Kramers degeneracy at each k-point, and leads to the mixing of the spin singlet-even parity and spin triplet odd-parity parings. On the other hand, the time-reversal symmetry T relates the two states at k and -k points with the opposite spins, and the external magnetic field B further breaking T leads to the directional dependence of the nonlinear resistivity called magnetochiral anisotropy (MCA). Here we demonstrate theoretically that the two-component nature of the order parameter, i.e., even and odd pairings, leads to the gigantic enhancement of the MCA in the fluctuation region, in Rashba superconductor as a representative example of noncentrosymmetric system. This reveals the superconducting analogue of "ferroelectric" appearing in the transport phenomena.