Flat-band superconductivity in strained Dirac materials

Kauppila, V. J.; Aikebaier, Faluke; Heikkilä, Tero

doi:10.1103/PhysRevB.93.214505

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Kauppila, V. J., Aikebaier, F., & Heikkilä, T. (2016). Flat-band superconductivity in strained Dirac materials. Physical Review B, 93(21), Article 214505. https://doi.org/10.1103/PhysRevB.93.214505

Published in

Physical Review B

Authors

Kauppila, V. J. |

Aikebaier, Faluke |

Heikkilä, Tero

Date

2016

Discipline

Nanoscience Center Nanoscience Center

Copyright

We consider superconducting properties of a two-dimensional Dirac material such as graphene under strain that produces a flat-band spectrum in the normal state. We show that in the superconducting state, such a model results in a highly increased critical temperature compared to the case without the strain, inhomogeneous order parameter with two-peak shaped local density of states and yet a large and almost uniform and isotropic supercurrent. This model could be realized in strained graphene or ultracold atom systems and could be responsible for unusually strong superconductivity observed in some graphite interfaces and certain IV-VI semiconductor heterostructures.

Publisher

American Physical Society

ISSN Search the Publication Forum

1098-0121

Related funder(s)

Academy of Finland

Funding program(s)

Centre of Excellence, AoF

Additional information about funding

This work was supported by the Academy of Finland through its Center of Excellence program Project No. 284594, and by the European Research Council (Grant No. 240362-Heattronics).