English

What is the Wigner function closest to a given square integrable function?

Mathematical Physics 2018-11-06 v1 Functional Analysis math.MP Quantum Physics

Abstract

We consider an arbitrary square integrable function FF on the phase space and look for the Wigner function closest to it with respect to the L2L^2 norm. It is well known that the minimizing solution is the Wigner function of any eigenvector associated with the largest eigenvalue of the Hilbert-Schmidt operator with Weyl symbol FF. We solve the particular case of radial functions on the two-dimensional phase space exactly. For more general cases, one has to solve an infinite dimensional eigenvalue problem. To avoid this difficulty, we consider a finite dimensional approximation and estimate the errors for the eigenvalues and eigenvectors. As an application, we address the so-called Wigner approximation suggested by some of us for the propagation of a pulse in a general dispersive medium. We prove that this approximation never leads to a {\it bona fide} Wigner function. This is our prime motivation for our optimization problem. As a by-product of our results we are able to estimate the eigenvalues and Schatten norms of certain Schatten-class operators. The techniques presented here may be potentially interesting for estimating eigenvalues of localization operators in time-frequency analysis and quantum mechanics.

Keywords

Cite

@article{arxiv.1807.05635,
  title  = {What is the Wigner function closest to a given square integrable function?},
  author = {J. S. Ben-Benjamin and L. Cohen and N. C. Dias and P. Loughlin and J. N. Prata},
  journal= {arXiv preprint arXiv:1807.05635},
  year   = {2018}
}

Comments

50 pages, to appear in SIAM J. Math. Anal

R2 v1 2026-06-23T03:02:05.287Z