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Ideal Quantum Teleamplification up to a Selected Energy Cutoff Using Linear Optics

Joshua J. Guanzon, Matthew S. Winnel, Austin P. Lund, Timothy C. Ralph

2022Physical Review Letters27 citationsDOIOpen Access PDF

Abstract

We introduce a linear optical technique that can implement ideal quantum teleamplification up to the nth Fock state, where n can be any positive integer. Here teleamplification consists of both quantum teleportation and noiseless linear amplification (NLA). This simple protocol consists of a beam splitter and an (n+1) splitter, with n ancillary photons and detection of n photons. For a given target fidelity, our technique improves success probability and physical resource costs by orders of magnitude over current alternative teleportation and NLA schemes. We show how this protocol can also be used as a loss-tolerant quantum relay for entanglement distribution and distillation.

Topics & Concepts

PhysicsBeam splitterQuantum teleportationQuantum entanglementQuantum mechanicsTeleportationQuantum channelIdeal (ethics)QuantumCutoffPhotonSuperdense codingQuantum cloningQuantum opticsEnergy (signal processing)Quantum networkFock spaceProbability distributionRealization (probability)Statistical physicsQuantum error correctionQuantum stateQuantum gateQuantum computerAmplitude damping channelTopology (electrical circuits)Bell stateQuantum information scienceQuantum technologyQuantum informationQuantum sensorProtocol (science)SplitterSimple (philosophy)Distribution (mathematics)Quantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum optics and atomic interactions
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