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Intrinsic finite-energy Cooper pairing in $j=3/2$ superconductors

We show that Cooper pairing can occur intrinsically away from the Fermi surface in $j=3/2$ superconductors with strong spin-orbit coupling and equally curved bands in the normal state. In contrast to conventional pairing between spin-$1/2$ electrons, we derive that pairing can happen between inter-band electrons having different magnetic quantum numbers, for instance, $m_j=1/2$ and $m_j=3/2$. Such superconducting correlations manifest themselves by a pair of indirect gap-like structures at finite excitation energies. An observable signature of this exotic pairing is the emergence of a pair of symmetric superconducting coherence peaks in the density of states at finite energies. Moreover, the angular-momentum-resolved density of states in the presence of a perturbative Zeeman field reflects the $m_j$ composition of the Cooper pairs. We argue that such finite-energy pairing is a generic feature of $j=3/2$ superconductors, both in presence and absence of inversion symmetry.

preprint2021arXivOpen access
Masoud BahariSong-Bo ZhangBjörn Trauzettel
cond-mat.supr-concond-mat.mtrl-sci
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Masoud BahariSong-Bo ZhangBjörn Trauzettel

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