English

Minimum-cost quantum measurements for quantum information

Quantum Physics 2014-03-12 v1

Abstract

Knowing about optimal quantum measurements is important for many applications in quantum information and quantum communication. However, deriving optimal quantum measurements is often difficult. We present a collection of results for minimum-cost quantum measurements, and give examples of how they can be used. Among other results, we show that a minimum-cost measurement for a set of given pure states is formally equivalent to a minimum-error measurement for mixed states of those same pure states. For pure symmetric states it turns out that for a certain class of cost matrices, the minimum-cost measurement is the square-root measurement. That is, the optimal minimum-cost measurement is in this case the same as the minimum-error measurement. Finally, we consider sequences of individual ``local" systems, and examine when the global minimum-cost measurement is a sequence of optimal local measurements. We also consider an example where the global minimum-cost measurement is, perhaps counter-intuitively, not a sequence of local measurements, and discuss how this is related to related to the Pusey-Barrett-Rudolph argument for the nature of the wave function.

Keywords

Cite

@article{arxiv.1312.5205,
  title  = {Minimum-cost quantum measurements for quantum information},
  author = {Petros Wallden and Vedran Dunjko and Erika Andersson},
  journal= {arXiv preprint arXiv:1312.5205},
  year   = {2014}
}

Comments

19 pages

R2 v1 2026-06-22T02:30:40.129Z