Maximum entanglement of formation for a two-mode Gaussian state over passive operations

POSTER

Abstract

We quantify the maximum amount of entanglement of formation (EoF) that can be achieved by continuous- variable states under passive operations, which we refer to as the EoF potential. Focusing, in particular, on two-mode Gaussian states we derive analytical expressions for the EoF potential for specific classes of states. For more general states, we demonstrate that this quantity can be upper bounded by the minimum amount of squeezing needed to synthesize the Gaussian modes, a quantity called squeezing of formation. Our work, thus, provides a link between nonclassicality of quantum states and the nonclassicality of correlations.

*This work is supported by the Australian Research Council (ARC) under the Centre of Excellence for Quantum Computation and Communication Technology (Grant No. CE170100012), the Singapore Ministry of Education Tier 1 Grant No. 2019-T1-002-015 (RG162/19), Singapore National Research Foundation Fellowship Grant No. NRF-NRFF2016-02, and the NRF-ANR Grant No. NRF2017-NRF-ANR004 VanQuTe.

Publication: DOI: 10.1103/PhysRevA.102.052418

Presenters

  • Spyros Tserkis

    • Harvard University

Authors

  • Spyros Tserkis

    • Harvard University

  • Jayne Thompson

    • Horizon Quantum Computing
    • Natl Univ of Singapore

  • Austin P Lund

    • University of Queensland

  • Timothy C Ralph

    • University of Queensland

  • Ping Koy Lam

    • Australian National University

  • Mile Gu

    • Nanyang Technological University

  • Syed M Assad

    • Australian National University