# Symmetry of superconducting correlations in displaced bilayers of   graphene

**Authors:** Mohammad Alidoust, Morten Willatzen, and Antti-Pekka Jauho

arXiv: 1903.11623 · 2019-04-26

## TL;DR

This paper investigates phonon-mediated superconducting pairing symmetries in displaced bilayer graphene, revealing various possible pairing symmetries and the potential for two-gap superconductivity depending on stacking order and doping.

## Contribution

It introduces a comprehensive Green's function approach to analyze superconducting symmetries in displaced bilayer graphene, considering generic coupling potentials and stacking configurations.

## Key findings

- Dominant pairing symmetries include s-wave and p-wave at charge neutrality.
- d-wave symmetry can develop at finite doping in AB stacking.
- Two-gap superconductivity is possible due to intralayer and interlayer phonon interactions.

## Abstract

Using a Green's function approach, we study phonon-mediated superconducting pairing symmetries that may arise in bilayer graphene where the monolayers are displaced in-plane with respect to each other. We consider a generic coupling potential between the displaced graphene monolayers, which is applicable to both shifted and commensurate twisted graphene layers; study intralayer and interlayer phonon-mediated BCS pairings; and investigate AA and AB(AC) stacking orders. Our findings demonstrate that at the charge neutrality point, the dominant pairings in both AA and AB stackings with intralayer and interlayer electron-electron couplings can have even-parity $s$-wave class and odd-parity $p$-wave class of symmetries with the possibility of invoking equal-pseudospin and odd-frequency pair correlations. At a finite doping, however, the AB (and equivalently AC) stacking can develop pseudospin-singlet and pseudospin-triplet $d$-wave symmetry, in addition to $s$-wave, $p$-wave, $f$-wave, and their combinations, while the AA stacking order, similar to the undoped case, is unable to host the $d$-wave symmetry. When we introduce a generic coupling potential, applicable to commensurate twisted and shifted bilayers of graphene, $d$-wave symmetry can also appear at the charge neutrality point. Inspired by a recent experiment where two phonon modes were observed in a twisted bilayer graphene, we also discuss the possibility of the existence of two-gap superconductivity, where the intralayer and interlayer phonon-mediated BCS picture is responsible for superconductivity. These analyses may provide a useful tool in determining the superconducting pairing symmetries and mechanism in bilayer graphene systems.

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/1903.11623/full.md

## References

73 references — full list in the complete paper: https://tomesphere.com/paper/1903.11623/full.md

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Source: https://tomesphere.com/paper/1903.11623