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Probing Quantitatively Two-electron Entanglement with a Spintronic Quantum Eraser

We design an ingenious spintronic quantum eraser to quantitatively probe the two-electron entanglement. It is shown that the concurrence of two spin-entangled electrons is directly given by the Aharonov-Bohm oscillation amplitude of the Fano factor, a measurable current-current correlation, making it rather promising to experimentally quantify the two-electron entanglement. The singlet and triplet entangled states are distinguished by the opposite signs in the Fano factor. Since the main building blocks in the designed setup, an electronic Mach-Zehnder interferometer and a spin filter, have already been implemented, our proposal is particularly pertinent to experiments.

preprint2012arXivOpen access
W. ChenR. ShenZ. D. WangL. ShengB. G. WangD. Y. Xing
cond-mat.mes-hall
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W. ChenR. ShenZ. D. WangL. ShengB. G. WangD. Y. Xing

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