English

On Horn's Problem and its Volume Function

Mathematical Physics 2020-04-28 v3 math.MP Probability Representation Theory

Abstract

We consider an extended version of Horn's problem: given two orbits Oα\mathcal{O}_\alpha and Oβ\mathcal{O}_\beta of a linear representation of a compact Lie group, let AOαA\in \mathcal{O}_\alpha, BOβB\in \mathcal{O}_\beta be independent and invariantly distributed random elements of the two orbits. The problem is to describe the probability distribution of the orbit of the sum A+BA+B. We study in particular the familiar case of coadjoint orbits, and also the orbits of self-adjoint real, complex and quaternionic matrices under the conjugation actions of SO(n)\mathrm{SO}(n), SU(n)\mathrm{SU}(n) and USp(n)\mathrm{USp}(n) respectively. The probability density can be expressed in terms of a function that we call the volume function. In this paper, (i) we relate this function to the symplectic or Riemannian geometry of the orbits, depending on the case; (ii) we discuss its non-analyticities and possible vanishing; (iii) in the coadjoint case, we study its relation to tensor product multiplicities (generalized Littlewood--Richardson coefficients) and show that it computes the volume of a family of convex polytopes introduced by Berenstein and Zelevinsky. These considerations are illustrated by a detailed study of the volume function for the coadjoint orbits of B2=so(5)B_2=\mathfrak{so}(5).

Keywords

Cite

@article{arxiv.1904.00752,
  title  = {On Horn's Problem and its Volume Function},
  author = {Robert Coquereaux and Colin McSwiggen and Jean-Bernard Zuber},
  journal= {arXiv preprint arXiv:1904.00752},
  year   = {2020}
}

Comments

29 pages, 7 figures v3: minor improvements to the published version. Fixed two missing citations and added details in the calculation of (23). Results and proofs unchanged

R2 v1 2026-06-23T08:25:12.073Z