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PUBLICATIONS

Experimental demonstration of a receiver beating the standard quantum limit for multiple nonorthogonal coherent-state discrimination

Published

Author(s)

Francisco E. Becerra Chavez, Jingyun Fan, Gerald Baumgartner, Julius Goldhar, Jonathan Kosloski, Alan L. Migdall

Abstract

The measurement of the state of a quantum system with inherent quantum uncertainty (noise) approaching the ultimate physical limits is of both technological and fundamental interest. Quantum noise prevents any mutually nonorthogonal quantum states, such as coherent states, from being distinguished with perfect accuracy. Optimized quantum measurements for nonorthogonal coherent states allow in principle for state discrimination sensitivities surpassing the standard quantum limit (SQL). Realizing quantum receivers that can detect multiple coherent states with sensitivity levels approaching the ultimate quantum limits is fundamental to quantum-enhanced measurements, and can optimize the performance of quantum and classical communications as well as future implementations of quantum technologies. Here we demonstrate the first quantum receiver that unconditionally discriminates four nonorthogonal coherent states with error probabilities below the SQL. This receiver achieves error rates four times lower than is possible with any ideal conventional receiver with perfect detection efficiency.
Citation
Nature Photonics
Volume
7
Pub Type
Journals

Download Paper

https://doi.org/10.1038/nphoton.2012.316

Keywords

quantum mechanics, standard quantum limit, metrology, coherent states, state discrimination, quantum communication, fundamental measurement
Quantum communications, Optical physics and communications and Quantum information science

Citation

Becerra, F. , Fan, J. , Baumgartner, G. , Goldhar, J. , Kosloski, J. and Migdall, A. (2013), Experimental demonstration of a receiver beating the standard quantum limit for multiple nonorthogonal coherent-state discrimination, Nature Photonics, [online], https://doi.org/10.1038/nphoton.2012.316 (Accessed December 3, 2024)

Issues

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Created January 6, 2013, Updated November 10, 2018