Detector-tuned overlap catastrophe in quantum dots

Sarath Sankar; Corentin Bertrand; Antoine Georges; Eran Sela; Yigal Meir

doi:10.1103/PhysRevB.110.085133

Detector-tuned overlap catastrophe in quantum dots

Sarath Sankar, Corentin Bertrand, Antoine Georges, Eran Sela, Yigal Meir

Tel Aviv University, Ben-Gurion University of the Negev

Research output: Contribution to journal › Article › peer-review

Abstract

The Anderson overlap catastrophe (AOC) is a many-body effect arising as a result of a shakeup of a Fermi sea due to an abrupt change of a local potential, leading to a power-law dependence of the density of states on energy. Here we demonstrate that a standard quantum-dot detector can be employed as a highly tunable probe of the AOC, where the power law can be continuously modified by a gate voltage. We show that signatures of the AOC have already appeared in previous experiments, and give explicit predictions allowing to tune and pinpoint their nonperturbative aspects.

Original language	English
Article number	085133
Journal	Physical Review B
Volume	110
Issue number	8
DOIs	https://doi.org/10.1103/PhysRevB.110.085133
State	Published - 15 Aug 2024

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.110.085133

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abstract = "The Anderson overlap catastrophe (AOC) is a many-body effect arising as a result of a shakeup of a Fermi sea due to an abrupt change of a local potential, leading to a power-law dependence of the density of states on energy. Here we demonstrate that a standard quantum-dot detector can be employed as a highly tunable probe of the AOC, where the power law can be continuously modified by a gate voltage. We show that signatures of the AOC have already appeared in previous experiments, and give explicit predictions allowing to tune and pinpoint their nonperturbative aspects.",

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AU - Georges, Antoine

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AB - The Anderson overlap catastrophe (AOC) is a many-body effect arising as a result of a shakeup of a Fermi sea due to an abrupt change of a local potential, leading to a power-law dependence of the density of states on energy. Here we demonstrate that a standard quantum-dot detector can be employed as a highly tunable probe of the AOC, where the power law can be continuously modified by a gate voltage. We show that signatures of the AOC have already appeared in previous experiments, and give explicit predictions allowing to tune and pinpoint their nonperturbative aspects.

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JO - Physical Review B

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Detector-tuned overlap catastrophe in quantum dots

Abstract

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