与 BCS 超导体耦合的螺旋态能量纠缠电子的周期源

Flavio Ronetti, Bruno Bertin-Johannet, Jérôme Rech, Thibaut Jonckheere, Benoît Grémaud, Laurent Raymond, Thierry Martin
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摘要

我们提出了一种在固态系统中实现的纯电子能量纠缠态源,有望应用于基于电子飞行量子比特的量子信息协议。所提议的设备依赖于电子量子光学(EQO)的标准工具,并利用了 BCS 超导体库珀对的纠缠。后者通过一个可调节的量子点接触耦合到两个相反的自旋极化电子波导上,由洛伦兹脉冲串驱动。这种特定的驱动选择对于注入纯电子纠缠态而避免产生虚假的电子-空穴对至关重要。在安德烈耶夫机制中,隧道耦合的微扰计算证实,纠缠电子态(EES)是在正常侧的输出端产生的。我们引入了一个与电荷电流交叉相关的量,它允许我们通过实验验证发射状态的纠缠性质。
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Periodic source of energy-entangled electrons in helical states coupled to a BCS superconductor
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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