English

Quantum Discord for $d\otimes2$ Systems

Quantum Physics 2015-09-07 v1

Abstract

We present an analytical solution for classical correlation, defined in terms of linear entropy, in an arbitrary d2d\otimes 2 system when the second subsystem is measured. We show that the optimal measurements used in the maximization of the classical correlation in terms of linear entropy, when used to calculate the quantum discord in terms of von Neumann entropy, result in a tight upper bound for arbitrary d2d\otimes 2 systems. This bound agrees with all known analytical results about quantum discord in terms of von Neumann entropy and, when comparing it with the numerical results for 10610^6 two-qubit random density matrices, we obtain an average deviation of order 10410^{-4}. Furthermore, our results give a way to calculate the quantum discord for arbitrary nn-qubit GHZ and W states evolving under the action of the amplitude damping noisy channel.

Keywords

Cite

@article{arxiv.1509.01410,
  title  = {Quantum Discord for $d\otimes2$ Systems},
  author = {Zhihao Ma and Zhihua Chen and Felipe F. Fanchini and Shao-Ming Fei},
  journal= {arXiv preprint arXiv:1509.01410},
  year   = {2015}
}

Comments

8 pages, 5 figures

R2 v1 2026-06-22T10:49:10.579Z