Gaussian states under coarse-grained continuous variable measurements Academic Article uri icon

abstract

  • The quantum-to-classical transition of a quantum state is a topic of great interest in fundamental and practical aspects. A coarse-graining in quantum measurement has recently been suggested as its possible account in addition to the usual decoherence model. We here investigate the reconstruction of a Gaussian state (single mode and two modes) by coarse-grained homodyne measurements. To this aim, we employ two methods, the direct reconstruction of the covariance matrix and the maximum likelihood estimation (MLE), respectively, and examine the reconstructed state under each scheme compared to the state interacting with a Gaussian (squeezed thermal) reservoir. We clearly demonstrate that the coarse-graining model, though applied equally to all quadrature amplitudes, is not compatible with the decoherence model by a thermal (phase-insensitive) reservoir. Furthermore, we compare the performance of the direct reconstruction and the MLE methods by investigating the fidelity and the nonclassicality of the reconstructed states and show that the MLE method can generally yield a more reliable reconstruction, particularly without information on a reference frame (phase of input state). © 2014 American Physical Society.

published proceedings

  • Physical Review A

altmetric score

  • 0.25

author list (cited authors)

  • Park, J., Ji, S., Lee, J., & Nha, H

citation count

  • 8

complete list of authors

  • Park, Jiyong||Ji, Se-Wan||Lee, Jaehak||Nha, Hyunchul

publication date

  • April 2014