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Main Authors: Lin, Shisheng, Huang, Shaoqi, Yang, Minhui, Chen, Xin, Bi, Hongjia, Xiong, Kangchen
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.15003
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author Lin, Shisheng
Huang, Shaoqi
Yang, Minhui
Chen, Xin
Bi, Hongjia
Xiong, Kangchen
author_facet Lin, Shisheng
Huang, Shaoqi
Yang, Minhui
Chen, Xin
Bi, Hongjia
Xiong, Kangchen
contents Exciton mediated superconductor is a fascinating quantum phase of matter that occurs when excitons become the dominant excitation in materials, which is also very promising for high temperature superconductor. However, there is no experimental report of exciton mediated superconductivity. Herein, we realize exciton mediated superconductivity from exciton insulator, where the onset transition temperature can reach larger than 200 K. More profoundly, Bose-Einstein condensation (BEC) of exciton can facilitate the formation of exciton insulator and a transition happened from extremely high resistivity of 107 Ω at 153.5 K to 100 Ω at 125 K, indicating a superconducting transition. The resistance of exciton mediated superconductivity can not be absolutely reach zero possibly as a result of drag effect between electrons/holes and excitons. We reveal one rule for exciton mediated superconductivity is that the resistivity is an inverse linear function of the current through the BEC superfluid state, which should be ascribed to the Andreev-Bashkin effect, which reflects the coupling between the BEC state of exciton and Cooper pairs mediated by excitons. Furthermore, a record transition temperature above 200 K has been found for one superconducting sample, which shows the Josephson oscillation dominated by a pendulum-like equation caused by the quantum coupling between superconductor and BEC superfluid of exciton.
format Preprint
id arxiv_https___arxiv_org_abs_2412_15003
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Possible High temperature Superconductivity above 200K mediated by Bose Einstein Condensation of exciton
Lin, Shisheng
Huang, Shaoqi
Yang, Minhui
Chen, Xin
Bi, Hongjia
Xiong, Kangchen
Superconductivity
Applied Physics
Exciton mediated superconductor is a fascinating quantum phase of matter that occurs when excitons become the dominant excitation in materials, which is also very promising for high temperature superconductor. However, there is no experimental report of exciton mediated superconductivity. Herein, we realize exciton mediated superconductivity from exciton insulator, where the onset transition temperature can reach larger than 200 K. More profoundly, Bose-Einstein condensation (BEC) of exciton can facilitate the formation of exciton insulator and a transition happened from extremely high resistivity of 107 Ω at 153.5 K to 100 Ω at 125 K, indicating a superconducting transition. The resistance of exciton mediated superconductivity can not be absolutely reach zero possibly as a result of drag effect between electrons/holes and excitons. We reveal one rule for exciton mediated superconductivity is that the resistivity is an inverse linear function of the current through the BEC superfluid state, which should be ascribed to the Andreev-Bashkin effect, which reflects the coupling between the BEC state of exciton and Cooper pairs mediated by excitons. Furthermore, a record transition temperature above 200 K has been found for one superconducting sample, which shows the Josephson oscillation dominated by a pendulum-like equation caused by the quantum coupling between superconductor and BEC superfluid of exciton.
title Possible High temperature Superconductivity above 200K mediated by Bose Einstein Condensation of exciton
topic Superconductivity
Applied Physics
url https://arxiv.org/abs/2412.15003