Experimental Demonstration of Entanglement-Enhanced Classical Communication over a Quantum Channel with Correlated Noise

Konrad Banaszek; Andrzej Dragan; Wojciech Wasilewski; Czeslaw Radzewicz

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Experimental Demonstration of Entanglement-Enhanced Classical Communication over a Quantum Channel with Correlated Noise

机译：具有相关噪声的量子通道上纠缠增强经典通信的实验演示

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We present an experiment demonstrating the entanglement enhanced capacity of a quantum channel with correlated noise, modeled by a fiber optic link exhibiting fluctuating birefringence. In this setting, introducing entanglement between two photons is required to maximize the amount of information that can be encoded into their joint polarization degree of freedom. We demonstrated this effect using a fiber-coupled source of entagled photon pairs based on spontaneous parametric down-conversion, and a linear-optics Bell state measurement. The obtained experimental classical capacity with entangled states is equal to 0.82 ± 0.04 per a photon pair, and it exceeds approximately 2.5 times the theoretical upper limit when no quantum correlations are allowed.

机译：我们提出了一个实验，该实验证明了具有相关噪声的量子通道的纠缠增强能力，其通过展现波动的双折射的光纤链路进行建模。在这种情况下，需要在两个光子之间引入纠缠，以最大程度地提高可编码为联合偏振自由度的信息量。我们使用了基于自发参量下变频和线性光学贝尔状态测量的，带有耦合光子对的光纤耦合源，证明了这种效果。每一个光子对获得的具有纠缠态的实验经典电容等于0.82±0.04，并且在不允许量子相关时，它超过理论上限的2.5倍。

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《Physical review letters》 |2004年第25pt1期|p.257901.1-257901.4|共4页
作者
Konrad Banaszek; Andrzej Dragan; Wojciech Wasilewski; Czeslaw Radzewicz;
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作者单位

Clarendon Laboratory, University of Oxford, Parks Road, Oxford OX1 3PU, United Kingdom;

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原文格式 PDF
正文语种 eng
中图分类物理学;
关键词
quantum communication; decoherence; open systems; quantum statistical methods; nonclassical states of the electromagnetic field; including entangled photon states; quantum state engineering and measurements; birefringence; polarization;

机译：量子通信;退相干;开放系统;量子统计方法;电磁场的非经典状态;包括纠缠的光子态;量子态工程和测量;双折射;偏振;

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1. Entanglement-enhanced classical capacity of quantum communication channels with memory in arbitrary dimensions [J] . Karpov E, Daems D, Cerf NJ Physical Review, A. Atomic, molecular, and optical physics . 2006,第3aPta1期

机译：任意维度具有存储器的量子通信通道的纠缠增强经典容量
2. Entanglement-Enhanced Classical Communication Over a Noisy Classical Channel [J] . R. Prevedel, Y. Lu, W. Matthews, Physical review letters . 2011,第11期

机译：嘈杂的古典频道上的纠缠式古典交流
3. Classical Capacity of Quantum Channels with General Markovian Correlated Noise [J] . Nilanjana Datta, Tony Dorlas Journal of Statistical Physics . 2009,第5a6期

机译：具有一般马尔可夫相关噪声的量子通道的经典容量
4. ENTANGLEMENT-ENHANCED CLASSICAL COMMUNICATION ON A NOISY QUANTUM CHANNEL [C] . International conference on quantum communication, computing, and measurement . 1997

机译：在嘈杂量子通道上纠缠 - 增强的经典通信
5. Communication security based on quantum and noise cryptographic channels. [D] . Kim, Ajung Myeonghye. 1996

机译：基于量子和噪声密码通道的通信安全性。
6. Experimental demonstration of quantum advantage for one-way communication complexity surpassing best-known classical protocol [O] . Niraj Kumar, Iordanis Kerenidis, Eleni Diamanti -1

机译：单向通信复杂性超越著名经典协议的量子优势实验证明
7. Experimental demonstration of entanglement-enhanced classical communication over a quantum channel with correlated noise [O] . Banaszek, K, Dragan, A, Wasilewski, W, 2004

机译：具有相关噪声的量子信道上纠缠增强经典通信的实验演示

Experimental Demonstration of Entanglement-Enhanced Classical Communication over a Quantum Channel with Correlated Noise

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