English

Detecting and Quantifying Entanglement via Bayesian Updating

Quantum Physics 2009-08-03 v3

Abstract

We show how a straightforward Bayesian updating procedure allows one to detect and quantify entanglement from any finite set of measurement results. The measurements do not have to be tomographically complete, and may consist of POVMs rather than von Neumann measurements. One obtains a probability that one's state is entangled and an estimate of any desired entanglement measure, including their error bars. As an example we consider (tomographically incomplete) spin correlation measurements on both 2-qubit and 3-qubit states. As byproducts we obtain estimates of the volume of entangled states vs. states that violate a given Bell inequality for both pure and mixed states, and an inequality that relates the expectation value of the Bell operator to the negativity.

Keywords

Cite

@article{arxiv.0806.4165,
  title  = {Detecting and Quantifying Entanglement via Bayesian Updating},
  author = {Pavel Lougovski and S. J. van Enk},
  journal= {arXiv preprint arXiv:0806.4165},
  year   = {2009}
}

Comments

superseded by 0908.0265 and 0908.0267

R2 v1 2026-06-21T10:54:22.096Z