Characterization of Gaussian operations and distillation of Gaussian states
Geza Giedke,J. Ignacio Cirac +1 more
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TLDR
It is shown that Gaussian states cannot be distilled by local Gaussian operations and classical communication, and positive (but not completely positive) Gaussian maps are defined.Abstract:
We characterize the class of all physical operations that transform Gaussian states to Gaussian states. We show that this class coincides with that of all operations that can be performed on Gaussian states using linear optical elements and homodyne measurements. For bipartite systems we characterize the processes that can be implemented by local operations and classical communication, as well as those that can be implemented using positive partial transpose preserving maps. As an application, we show that Gaussian states cannot be distilled by local Gaussian operations and classical communication. We also define and characterize positive (but not completely positive) Gaussian maps.read more
Citations
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Decoherence of gaussian and nongaussian photon-number entangled states in a noisy channel
TL;DR: In this article, the degradation of photon-number entangled states (PNES) in a noisy channel was studied using different separability criteria and a recently proposed measure of nonGaussianity as key tools.
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Finite-resource teleportation stretching for continuous-variable systems
TL;DR: In this article, the secret-key capacity of phase-insensitive Gaussian channels was derived for point-to-point and repeater-assisted private communications, which approximate the optimal limit for infinite energy.
Fault-tolerant quantum computation: Theory and practice
TL;DR: This thesis investigates and improves several aspects of fault-tolerant schemes and quantum error correction, and investigates the advantages of harnessing quantum continuous degrees of freedom present in the lab to protect discrete quantum information in a scalable way.
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Entanglement-enhanced estimation of a parameter embedded in multiple phases
TL;DR: In this article, a generalized distributed sensing framework was proposed that uses an entangled quantum probe to estimate a scene-parameter encoded within an array of phases, with a functional dependence on that parameter determined by the physics of the actual system.
Book ChapterDOI
Quantum solitons in optical fibres: Basic requisites for experimental quantum communication
TL;DR: In this paper, the authors describe the detection and characterization of bright EPR-entanglement and QND-englement produced in this way and discuss the prospects of bright-beam-based quantum communication.
References
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Book
Matrix Analysis
Roger A. Horn,Charles R. Johnson +1 more
TL;DR: In this article, the authors present results of both classic and recent matrix analyses using canonical forms as a unifying theme, and demonstrate their importance in a variety of applications, such as linear algebra and matrix theory.
Measuring the Quantum State of Light
TL;DR: In this paper, the authors present a method for simultaneous measurement of position and momentum in a simple optical instrument with respect to the quantum theory of light and quasiprobability distribution.
Book
Measuring the Quantum State of Light
TL;DR: In this paper, the authors present a method for simultaneous measurement of position and momentum in a simple optical instrument with respect to the quantum theory of light and quasiprobability distribution.
Journal ArticleDOI
Generalized Coherent States
TL;DR: In this paper, the generalized coherent states were studied using an operator technique similar to one we have used in a previous paper, and an alternative derivation of the most general coherent state was provided.