Nathan Walk scite author profile

The idea of signal amplification is ubiquitous in the control of physical systems, and the ultimate performance limit of amplifiers is set by quantum physics. Increasing the amplitude of an unknown quantum optical field, or more generally any harmonic oscillator state, must introduce noise 1 . This linear amplification noise prevents the perfect copying of the quantum state 2 , enforces quantum limits on communications and metrology 3 , and is the physical mechanism that prevents the increase of entanglement via local operations. It is known that non-deterministic versions of ideal cloning 4 and local entanglement increase (distillation) 5 are allowed, suggesting the possibility of non-deterministic noiseless linear amplification. Here we introduce, and experimentally demonstrate, such a noiseless linear amplifier for continuous-variables states of the optical field, and use it to demonstrate entanglement distillation of field-mode entanglement. This simple but powerful circuit can form the basis of practical devices for enhancing quantum technologies. The idea of noiseless amplification unifies approaches to cloning and distillation, and will find applications in quantum metrology and communications.A quantum-noise-free amplifier, if it could be constructed, could aid a wide variety of quantum-enhanced information protocols, primarily through its ability to distill and purify continuous-variable entanglement. This

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Quantum certification and benchmarking

Eisert

et al. 2020

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Observation of Genuine One-Way Einstein-Podolsky-Rosen Steering

et al. 2016

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Within the hierarchy of inseparable quantum correlations, Einstein-Podolsky-Rosen steering is distinguished from both entanglement and Bell nonlocality by its asymmetry-there exist conditions where the steering phenomenon changes from being observable to not observable, simply by exchanging the role of the two measuring parties. While this one-way steering feature has been previously demonstrated for the restricted class of Gaussian measurements, for the general case of positive-operator-valued measures even its theoretical existence has only recently been settled. Here, we prove, and then experimentally observe, the one-way steerability of an experimentally practical class of entangled states in this general setting. As well as its foundational significance, the demonstration of fundamentally asymmetric nonlocality also has practical implications for the distribution of the trust in quantum communication networks.

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Nathan Walk

Heralded noiseless linear amplification and distillation of entanglement

Quantum certification and benchmarking

Observation of Genuine One-Way Einstein-Podolsky-Rosen Steering

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