English

Quantum state tomography by continuous measurement and compressed sensing

Quantum Physics 2013-03-15 v2

Abstract

The need to perform quantum state tomography on ever larger systems has spurred a search for methods that yield good estimates from incomplete data. We study the performance of compressed sensing (CS) and least squares (LS) estimators in a fast protocol based on continuous measurement on an ensemble of cesium atomic spins. Both efficiently reconstruct nearly pure states in the 16-dimensional ground manifold, reaching average fidelities FCS = 0.92 and FLS = 0.88 using similar amounts of incomplete data. Surprisingly, the main advantage of CS in our protocol is an increased robustness to experimental imperfections.

Keywords

Cite

@article{arxiv.1208.5015,
  title  = {Quantum state tomography by continuous measurement and compressed sensing},
  author = {A. Smith and C. A. Riofrío and B. E. Anderson and H. Sosa-Martinez and I. H. Deutsch and P. S. Jessen},
  journal= {arXiv preprint arXiv:1208.5015},
  year   = {2013}
}
R2 v1 2026-06-21T21:54:58.341Z