Theory of resonantly enhanced photo-induced superconductivity

Author:

Eckhardt Christian J.ORCID,Chattopadhyay Sambuddha,Kennes Dante M.,Demler Eugene A.,Sentef Michael A.ORCID,Michael Marios H.ORCID

Abstract

AbstractOptical driving of materials has emerged as a versatile tool to control their properties, with photo-induced superconductivity being among the most fascinating examples. In this work, we show that light or lattice vibrations coupled to an electronic interband transition naturally give rise to electron-electron attraction that may be enhanced when the underlying boson is driven into a non-thermal state. We find this phenomenon to be resonantly amplified when tuning the boson’s frequency close to the energy difference between the two electronic bands. This result offers a simple microscopic mechanism for photo-induced superconductivity and provides a recipe for designing new platforms in which light-induced superconductivity can be realized. We discuss two-dimensional heterostructures as a potential test ground for light-induced superconductivity concretely proposing a setup consisting of a graphene-hBN-SrTiO3 heterostructure, for which we estimate a superconducting Tc that may be achieved upon driving the system.

Funder

Alexander von Humboldt-Stiftung

National Science Foundation

United States Department of Defense | United States Army | U.S. Army Research, Development and Engineering Command | Army Research Office

Publisher

Springer Science and Business Media LLC

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