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Helical $f$-Wave Superconductivity in Cubic Rashba Superconductors

Published 4 Aug 2024 in cond-mat.supr-con | (2408.02008v1)

Abstract: Linear-in-$k$ Rashba spin-orbit coupling is crucial for achieving topological superconductivity. The wave vector dependence of this spin-orbit coupling can vary across materials, exhibiting linear, cubic, or a combination of both forms. Notably, cubic Rashba spin-orbit coupling induces a distinct triple spin winding on the Fermi surface, differentiating it from linear Rashba spin-orbit coupling. In this Letter, we investigate the potential for two-dimensional topological superconductivity in an interacting bilayer Rashba spin-orbit coupled system with local inversion symmetry breaking. We discover an intriguing interplay between the unique spin texture induced by cubic Rashba spin-orbit coupling and odd-parity Cooper pairing mechanisms. This interplay leads to a mirror symmetry-protected topological crystalline superconductor hosting three pairs of Majorana edge modes associated with an effective helical $f$-wave Cooper pairing. The bulk topology of the helical $f$-wave superconductor is characterized by a mirror Chern number $n_M=3$, which remains stable even in the presence of coexisting linear and cubic Rashba spin-orbit couplings. Our work not only proposes an approach to engineering topological mirror superconductors but also uncovers a pathway to realizing rare helical $f$-wave pairing.

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