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  Superconductivity induced by strong electron-exciton coupling in doped atomically thin semiconductor heterostructures

Milczewski, J. v., Chen, X., Imamoglu, A., & Schmidt, R. (submitted). Superconductivity induced by strong electron-exciton coupling in doped atomically thin semiconductor heterostructures.

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Item Permalink: https://hdl.handle.net/21.11116/0000-000E-483C-F Version Permalink: https://hdl.handle.net/21.11116/0000-000E-483D-E
Genre: Preprint
Alternative Title : Preprint arXiv:2310.10726v1 Submitted on 16 Oct 2023

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 Creators:
Milczewski, Jonas von1, Author           
Chen, Xin, Author
Imamoglu, Atac, Author
Schmidt, Richard, Author
Affiliations:
1Theory, Max Planck Institute of Quantum Optics, Max Planck Society, ou_1445571              

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Free keywords: Quantum Physics, quant-ph
 Abstract: We study a mechanism to induce superconductivity in atomically thin
semiconductors where excitons mediate an effective attraction between
electrons. Our model includes interaction effects beyond the paradigm of
phonon-mediated superconductivity and connects to the well-established limits
of Bose and Fermi polarons. By accounting for the strong-coupling physics of
trions, we find that the effective electron-exciton interaction develops a
strong frequency and momentum dependence accompanied by the system undergoing
an emerging BCS-BEC crossover from weakly bound $s$-wave Cooper pairs to a
superfluid of bipolarons. Even at strong-coupling the bipolarons remain
relatively light, resulting in critical temperatures of up to 10\% of the Fermi
temperature. This renders heterostructures of two-dimensional materials a
promising candidate to realize superconductivity at high critical temperatures
set by electron doping and trion binding energies.

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 Dates: 2023-10-16
 Publication Status: Submitted
 Pages: -
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 Rev. Type: -
 Identifiers: arXiv: 2310.10726v1
 Degree: -

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Funding organization : International Max Planck Research School for Quantum Science and Technology (IMPRS-QST)
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Grant ID : -
Funding program : Germany’s Excellence Strategy EXC 2181/1 - 390900948
Funding organization : Deutsche Forschungsgemeinschaft

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