Flavio Ronetti, Bruno Bertin-Johannet, Jérôme Rech, Thibaut Jonckheere, Benoît Grémaud, Laurent Raymond, Thierry Martin
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引用次数: 0
Abstract
We propose a source of purely electronic energy-entangled states implemented
in a solid-state system with potential applications in quantum information
protocols based on electron flying qubits. The proposed device relies on the
standard tools of Electron Quantum Optics (EQO) and exploits entanglement of
the Cooper pairs of a BCS superconductor. The latter is coupled via an
adjustable quantum point contact to two opposite spin polarized electron
wave-guides, which are driven by trains of Lorentzian pulses. This specific
choice for the drive is crucial to inject purely electronic entangled-states
devoid of spurious electron-hole pairs. In the Andreev regime, a perturbative
calculation in the tunnel coupling confirms that entangled electrons states
(EES) are generated at the output of the normal side. We introduce a quantity
related to charge current cross-correlations which allows one to verify
experimentally the entangled nature of the emitted state.
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