Entanglement distillation based on polarization and frequency hyperentanglement

• URL: http://arxiv.org/abs/2304.01470v2
• Date: Mon, 21 Aug 2023 21:53:50 GMT
• Title: Entanglement distillation based on polarization and frequency hyperentanglement
• Authors: Dan Xu, Changjia Chen, Brian T. Kirby, and Li Qian
• Abstract summary: Entanglement distillation has many applications in quantum information processing. We propose an entanglement distillation scheme using only one pair of polarization-frequency hyperentangled photons. We show that high fidelity gains, large yield, and high distillation rate can be achieved.
• Score: 7.450721110075674
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Entanglement distillation has many applications in quantum information processing and is an important tool for improving the quality and efficiency of quantum communication, cryptography, computing, and simulation. We propose an entanglement distillation scheme using only one pair of polarization-frequency hyperentangled photons, which can be equivalently viewed as containing two pairs of entangled logical qubits: a pair of polarization-entangled qubits and a pair of frequency-entangled qubits. To perform the required CNOT operation between the two qubits we consider the use of a polarization-dependent frequency converter. Compared to past methods of entanglement distillation that relied on polarization and spatial-mode/energy-time degree of freedom, the utilization of frequency-encoded qubits offers an advantage in that it is immune to bit-flip errors when the channel is linear. After distillation, the fidelity of polarization entanglement can be significantly improved by sacrificing the frequency degree of freedom. Through simulation, we show that high fidelity gains, large yield, and high distillation rate can be achieved. Our distillation scheme is simple to implement with current technologies, compatible with existing telecommunication fiber networks, and is a promising approach for achieving efficient quantum communication.

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