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2001

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Supplement

  

Quantum computing


Spin-entangled electrons in mesoscopic systems

, , ,
University of Basel, Department of Physics, Klingelbergstrasse, 82 Basel, CH-4056, Switzerland , Basel , Switzerland

Entanglement acts as a fundamental resource for many applications in quantum communication. We propose and theoretically analyze methods for preparing and detecting entanglement between the spins of electrons in a mesoscopic environment. The entanglement production mechanism which we present is based on two quantum dots coupled to a superconductor from which paired electrons are injected via Andreev tunneling. The spin-correlated electrons can then hop from the quantum dots into normal leads. For detection we propose to measure the shot noise which is produced by the entangled electrons after they have passed a beam splitter. The enhancement of the noise by a factor of two turns out to be a unique signature for the spin singlet, a maximally entangled state. In a different setting, the entangled ground state in two tunnel-coupled quantum dots is detected via the Aharonov–Bohm oscillations in the co-tunneling current.

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Fulltext is also available at DOI: 10.1070/1063-7869/44/10S/S28
PACS: 71.10.+Pm, 73.22.Dj, 85.25.−j, 73.40.Gk (all)
DOI: 10.1070/1063-7869/44/10S/S28
URL: https://ufn.ru/en/articles/2001/13/ab/
Citation: Burkard G, Sukhorukov E V, Recher P, Loss D "Spin-entangled electrons in mesoscopic systems" Phys. Usp. 44 126–131 (2001)
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Îðèãèíàë: Burkard G, Sukhorukov E V, Recher P, Loss D «Spin-entangled electrons in mesoscopic systems» ÓÔÍ 171 126–131 (2001); DOI: 10.1070/1063-7869/44/10S/S28

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