Superconductivity in semiconductor structures : the excitonic mechanism
We theoretically study the dependency of the superconductivity transition critical temperature (TC) on the electron and exciton-polariton densities in layered systems, where superconductivity is mediated by a Bose-Einstein condensate of exciton-polaritons. The critical temperature increases with the...
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sg-ntu-dr.10356-1561452022-04-07T07:01:33Z Superconductivity in semiconductor structures : the excitonic mechanism Cherotchenko, E. D. Espinosa-Ortega, Tania Nalitov, A. V. Shelykh, I. A. Kavokin, A. V. School of Physical and Mathematical Sciences Science::Physics::Optics and light 2D Semiconductors Excitons We theoretically study the dependency of the superconductivity transition critical temperature (TC) on the electron and exciton-polariton densities in layered systems, where superconductivity is mediated by a Bose-Einstein condensate of exciton-polaritons. The critical temperature increases with the polariton density, but decreases with the electron gas density, surprisingly. This makes doped semiconductor structures with shallow Fermi energies better adapted for observation of the exciton-polariton-induced superconductivity than metallic layers. For realistic GaAs-based microcavities containing doped and neutral quantum wells we estimate TC as close to 50 K. Superconductivity is suppressed by magnetic fields of the order of 4 T due to the Fermi surface renormalization. 2022-04-07T07:01:32Z 2022-04-07T07:01:32Z 2016 Journal Article Cherotchenko, E. D., Espinosa-Ortega, T., Nalitov, A. V., Shelykh, I. A. & Kavokin, A. V. (2016). Superconductivity in semiconductor structures : the excitonic mechanism. Superlattices and Microstructures, 90, 170-175. https://dx.doi.org/10.1016/j.spmi.2015.12.003 0749-6036 https://hdl.handle.net/10356/156145 10.1016/j.spmi.2015.12.003 2-s2.0-84951336325 90 170 175 en Superlattices and Microstructures © 2015 Elsevier Ltd. All rights reserved. |
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Science::Physics::Optics and light 2D Semiconductors Excitons Cherotchenko, E. D. Espinosa-Ortega, Tania Nalitov, A. V. Shelykh, I. A. Kavokin, A. V. Superconductivity in semiconductor structures : the excitonic mechanism |
| description |
We theoretically study the dependency of the superconductivity transition critical temperature (TC) on the electron and exciton-polariton densities in layered systems, where superconductivity is mediated by a Bose-Einstein condensate of exciton-polaritons. The critical temperature increases with the polariton density, but decreases with the electron gas density, surprisingly. This makes doped semiconductor structures with shallow Fermi energies better adapted for observation of the exciton-polariton-induced superconductivity than metallic layers. For realistic GaAs-based microcavities containing doped and neutral quantum wells we estimate TC as close to 50 K. Superconductivity is suppressed by magnetic fields of the order of 4 T due to the Fermi surface renormalization. |
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School of Physical and Mathematical Sciences |
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School of Physical and Mathematical Sciences Cherotchenko, E. D. Espinosa-Ortega, Tania Nalitov, A. V. Shelykh, I. A. Kavokin, A. V. |
| format |
Article |
| author |
Cherotchenko, E. D. Espinosa-Ortega, Tania Nalitov, A. V. Shelykh, I. A. Kavokin, A. V. |
| author_sort |
Cherotchenko, E. D. |
| title |
Superconductivity in semiconductor structures : the excitonic mechanism |
| title_short |
Superconductivity in semiconductor structures : the excitonic mechanism |
| title_full |
Superconductivity in semiconductor structures : the excitonic mechanism |
| title_fullStr |
Superconductivity in semiconductor structures : the excitonic mechanism |
| title_full_unstemmed |
Superconductivity in semiconductor structures : the excitonic mechanism |
| title_sort |
superconductivity in semiconductor structures : the excitonic mechanism |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/156145 |
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1729789525675212800 |