Quantum steering of multimode Gaussian states by Gaussian measurements

Monogamy relations and the Peres conjecture

Se Wan Ji, M. S. Kim, Hyunchul Nha

Research output: Contribution to journalArticle

18 Citations (Scopus)

Abstract

It is a topic of fundamental and practical importance how a quantum correlated state can be reliably distributed through a noisy channel for quantum information processing. The concept of quantum steering recently defined in a rigorous manner is relevant to study it under certain circumstances and here we address quantum steerability of Gaussian states to this aim. In particular, we attempt to reformulate the criterion for Gaussian steering in terms of local and global purities and show that it is sufficient and necessary for the case of steering a 1-mode system by an N-mode system. It subsequently enables us to reinforce a strong monogamy relation under which only one party can steer a local system of 1-mode. Moreover, we show that only a negative partial-transpose state can manifest quantum steerability by Gaussian measurements in relation to the Peres conjecture. We also discuss our formulation for the case of distributing a two-mode squeezed state via one-way quantum channels making dissipation and amplification effects, respectively. Finally, we extend our approach to include non-Gaussian measurements, more precisely, all orders of higher-order squeezing measurements, and find that this broad set of non-Gaussian measurements is not useful to demonstrate steering for Gaussian states beyond Gaussian measurements.

Original languageEnglish
Article number135301
JournalJournal of Physics A: Mathematical and Theoretical
Volume48
Issue number13
DOIs
Publication statusPublished - 7 Apr 2015

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Squeezed States
Quantum Information Processing
Quantum Channel
Local System
distributing
Transpose
Squeezing
compressing
Amplification
Dissipation
purity
dissipation
Higher Order
Sufficient
Partial
formulations
Necessary
Formulation
Demonstrate
Concepts

Keywords

  • Gaussian measurements
  • Gaussian states
  • Peres conjecture
  • quantum steering

ASJC Scopus subject areas

  • Mathematical Physics
  • Physics and Astronomy(all)
  • Statistical and Nonlinear Physics
  • Modelling and Simulation
  • Statistics and Probability

Cite this

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