Superconductivity-induced features in the electronic Raman spectrum of monolayer graphene

Aitor García-Ruiz Fuentes; Marcin Mucha-Kruczyński; Vladimir Fal'ko

doi:10.1103/PhysRevB.97.155405

Superconductivity-induced features in the electronic Raman spectrum of monolayer graphene

Aitor García-Ruiz Fuentes, Marcin Mucha-Kruczyński, Vladimir Fal'ko

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Abstract

Using the continuum model, we investigate theoretically the contribution of the low-energy electronic excitations to the Raman spectrum of superconducting monolayer graphene. We consider superconducting phases characterised by an isotropic order parameter in a single valley and find a Raman peak at a shift set by the size of the superconducting gap. The height of this peak is proportional to the square root of the gap and the third power of the Fermi level, and we estimate its quantum efficiency as I∼10^{−14}.

Original language	English
Article number	155405
Journal	Physical Review B
Volume	97
Issue number	15
Early online date	5 Apr 2018
DOIs	https://doi.org/10.1103/PhysRevB.97.155405
Publication status	Published - 5 Apr 2018

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National Graphene Institute

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title = "Superconductivity-induced features in the electronic Raman spectrum of monolayer graphene",

abstract = "Using the continuum model, we investigate theoretically the contribution of the low-energy electronic excitations to the Raman spectrum of superconducting monolayer graphene. We consider superconducting phases characterised by an isotropic order parameter in a single valley and find a Raman peak at a shift set by the size of the superconducting gap. The height of this peak is proportional to the square root of the gap and the third power of the Fermi level, and we estimate its quantum efficiency as I∼10^{−14}.",

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AU - Mucha-Kruczyński, Marcin

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AB - Using the continuum model, we investigate theoretically the contribution of the low-energy electronic excitations to the Raman spectrum of superconducting monolayer graphene. We consider superconducting phases characterised by an isotropic order parameter in a single valley and find a Raman peak at a shift set by the size of the superconducting gap. The height of this peak is proportional to the square root of the gap and the third power of the Fermi level, and we estimate its quantum efficiency as I∼10^{−14}.

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Superconductivity-induced features in the electronic Raman spectrum of monolayer graphene

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