Spin-orbit-coupled superconductivity with spin-singlet non-unitary pairing
An unconventional superconductor is distinguished with two types of gap functions: unitary and non-unitary. This core subject has been concentrated on purely spin-triplet or singlet-triplet mixed superconductors. However, the generalization to a purely spin-singlet superconductor has remained primar...
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| Published in | arXiv.org |
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| Main Authors | , , , |
| Format | Paper Journal Article |
| Language | English |
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Ithaca
Cornell University Library, arXiv.org
01.03.2023
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| ISSN | 2331-8422 |
| DOI | 10.48550/arxiv.2201.06265 |
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| Abstract | An unconventional superconductor is distinguished with two types of gap functions: unitary and non-unitary. This core subject has been concentrated on purely spin-triplet or singlet-triplet mixed superconductors. However, the generalization to a purely spin-singlet superconductor has remained primarily of theoretical interest, which requires at least a multi-orbital correlated electronic systems. In this work, we present a possible establishment of both unitary and non-unitary pairings for spin-singlet superconductors with two atomic orbitals. Then we investigate the effects of atomic spin-orbit coupling and find a new spin-orbit-coupled non-unitary superconductor that supports exotic phenomena. Remarkably, there are mainly three features. Firstly, the atomic spin-orbit coupling locks the electron spins to be out-of-plane, which could give birth to the Type II Ising superconductivity with a large in-plane upper critical field compared to the Pauli limit. Secondly, topological chiral or helical Majorana edge state could be realized even in the absence of external magnetic fields or Zeeman fields. In addition, a spin-polarized superconducting state could even be generated by spin-singlet non-unitary pairings with spontaneous time-reversal breaking, which severs as a smoking gun to detect this exotic state by measuring the spin-resolved density of states. Therefore, our work might pave a new avenue to spin-orbit-coupled superconductors with spin-singlet non-unitary pairing symmetries. |
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| AbstractList | An unconventional superconductor is distinguished with two types of gap
functions: unitary and non-unitary. This core subject has been concentrated on
purely spin-triplet or singlet-triplet mixed superconductors. However, the
generalization to a purely spin-singlet superconductor has remained primarily
of theoretical interest, which requires at least a multi-orbital correlated
electronic systems. In this work, we present a possible establishment of both
unitary and non-unitary pairings for spin-singlet superconductors with two
atomic orbitals. Then we investigate the effects of atomic spin-orbit coupling
and find a new spin-orbit-coupled non-unitary superconductor that supports
exotic phenomena. Remarkably, there are mainly three features. Firstly, the
atomic spin-orbit coupling locks the electron spins to be out-of-plane, which
could give birth to the Type II Ising superconductivity with a large in-plane
upper critical field compared to the Pauli limit. Secondly, topological chiral
or helical Majorana edge state could be realized even in the absence of
external magnetic fields or Zeeman fields. In addition, a spin-polarized
superconducting state could even be generated by spin-singlet non-unitary
pairings with spontaneous time-reversal breaking, which severs as a smoking gun
to detect this exotic state by measuring the spin-resolved density of states.
Therefore, our work might pave a new avenue to spin-orbit-coupled
superconductors with spin-singlet non-unitary pairing symmetries. An unconventional superconductor is distinguished with two types of gap functions: unitary and non-unitary. This core subject has been concentrated on purely spin-triplet or singlet-triplet mixed superconductors. However, the generalization to a purely spin-singlet superconductor has remained primarily of theoretical interest, which requires at least a multi-orbital correlated electronic systems. In this work, we present a possible establishment of both unitary and non-unitary pairings for spin-singlet superconductors with two atomic orbitals. Then we investigate the effects of atomic spin-orbit coupling and find a new spin-orbit-coupled non-unitary superconductor that supports exotic phenomena. Remarkably, there are mainly three features. Firstly, the atomic spin-orbit coupling locks the electron spins to be out-of-plane, which could give birth to the Type II Ising superconductivity with a large in-plane upper critical field compared to the Pauli limit. Secondly, topological chiral or helical Majorana edge state could be realized even in the absence of external magnetic fields or Zeeman fields. In addition, a spin-polarized superconducting state could even be generated by spin-singlet non-unitary pairings with spontaneous time-reversal breaking, which severs as a smoking gun to detect this exotic state by measuring the spin-resolved density of states. Therefore, our work might pave a new avenue to spin-orbit-coupled superconductors with spin-singlet non-unitary pairing symmetries. |
| Author | Zeng, Meng Lun-Hui Hu Dong-Hui, Xu Zi-Ming, Wang |
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| BackLink | https://doi.org/10.48550/arXiv.2201.06265$$DView paper in arXiv https://doi.org/10.1103/PhysRevB.107.094507$$DView published paper (Access to full text may be restricted) |
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| Snippet | An unconventional superconductor is distinguished with two types of gap functions: unitary and non-unitary. This core subject has been concentrated on purely... An unconventional superconductor is distinguished with two types of gap functions: unitary and non-unitary. This core subject has been concentrated on purely... |
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| Title | Spin-orbit-coupled superconductivity with spin-singlet non-unitary pairing |
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