Generation and Quantum Interference of Entangled Electron-Hole Pairs in a Hanbury Brown and Twiss Interferometer

Qing-Yun Zhang; Bai-Geng Wang; Rui Shen; Ding-Yu Xing; Qingyun Zhang

doi:10.1088/0256-307X/27/9/097401

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Generation and Quantum Interference of Entangled Electron-Hole Pairs in a Hanbury Brown and Twiss Interferometer

Journal article

Peer reviewed

Generation and Quantum Interference of Entangled Electron-Hole Pairs in a Hanbury Brown and Twiss Interferometer

Qing-Yun Zhang, Bai-Geng Wang, Rui Shen, Ding-Yu Xing and Qingyun Zhang

Chinese physics letters, Vol.27(9), pp.097401-097401

01/09/2010

DOI: https://doi.org/10.1088/0256-307X/27/9/097401

Abstract

Cross correlation

Detectors

Interference

Interferometers

Microelectronics

Phase shift

Reflection

Superconductors

The Hanbury--Brown--Twiss interferometer is proposed to serve as a detector of the crossed Andreev reflection and to generate entangled electron-hole pairs. It is shown that the non-local electron and hole induced by the crossed Andreev reflection are entangled. Quantum interference of the entangled electron-hole pairs gives rise to a new measurable effect of the phase difference between two superconductors in the cross correlation. The present theoretical predictions can be experimentally realized within the present-day microelectronic technology.

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Title: Generation and Quantum Interference of Entangled Electron-Hole Pairs in a Hanbury Brown and Twiss Interferometer
Creators - without role: Qing-Yun Zhang
Bai-Geng Wang
Rui Shen
Ding-Yu Xing
Qingyun Zhang - King Abdullah University of Science & Technology
Publication Details: Chinese physics letters, Vol.27(9), pp.097401-097401
Identifiers: 9941242208331
Academic Unit: King Abdullah University of Science & Technology
Language: English
Resource Type: Journal article