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Nature Communications, 2014, Volume 5, Pages 3826–5
DOI: https://doi.org/10.1038/ncomms4826
(Mi ncom1)
 

This article is cited in 66 scientific papers (total in 66 papers)

Quantum state majorization at the output of bosonic Gaussian channels

A. Maria, V. Giovannettia, A. S. Holevobc

a NEST, Scuola Normale Superiore and Istituto Nanoscienze-CNR, I-56127 Pisa, Italy
b Steklov Mathematical Institute, 119991 Moscow, Russia
c National Research University Higher School of Economics (HSE), 101000 Moscow, Russia
Citations (66)
Abstract: Quantum communication theory explores the implications of quantum mechanics to the tasks of information transmission. Many physical channels can be formally described as quantum Gaussian operations acting on bosonic quantum states. Depending on the input state and on the quality of the channel, the output suffers certain amount of noise. For a long time it has been conjectured, but never proved, that output states of Gaussian channels corresponding to coherent input signals are the less noisy ones (in the sense of a majorization criterion). Here we prove this conjecture. Specifically we show that every output state of a phase-insensitive Gaussian channel is majorized by the output state corresponding to a coherent input. The proof is based on the optimality of coherent states for the minimization of strictly concave output functionals. Moreover we show that coherent states are the unique optimizers.
Funding agency Grant number
Russian Academy of Sciences - Federal Agency for Scientific Organizations
Russian Foundation for Basic Research 12-01-00319
Isaac Newton Institute for Mathematical Science
A.M. acknowledges support from Progetto Giovani Ricercatori 2013 of SNS. V.G. and A.S.H. also acknowledge support and catalyzing role of the Isaac Newton Institute for Mathematical Sciences, Cambridge, UK: part of this work was conducted when attending the Newton Institute programme ‘Mathematical Challenges in Quantum Information’. A.S.H. acknowledges the Rothschild Distinguished Visiting Fellowship, which enabled him to participate in the programme and partial support from RAS Fundamental Research Programs, Russian Quantum Centre and RFBR grant No 12-01-00319.
Received: 23.12.2013
Accepted: 07.04.2014
Bibliographic databases:
Document Type: Article
Language: English
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