Josephson effect of superconductors with J=3/2 electrons

Abstract

The angular momentum of an electron is characterized well by pseudospin with J=3/2 in the presence of strong spin-orbit interactions. We study theoretically the Josephson effect of superconductors in which such two J=3/2 electrons form a Cooper pair. Within even-parity symmetry class, pseudospin-quintet pairing states with J=2 can exist as well as pseudospin-singlet state with J=0. We focus especially on the Josephson selection rule among these even-parity superconductors. We find that the selection rule between quintet states is severer than that between spin-triplet states formed by two S=1/2 electrons. The effects of a pseudospin-active interface on the selection rule are discussed as well as those of odd-frequency Cooper pairs generated by pseudospin dependent band structures.

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