English

Isotropic functions revisited

Representation Theory 2018-05-23 v4

Abstract

To a smooth and symmetric function ff defined on a symmetric open set ΓRn\Gamma\subset\mathbb{R}^{n} and a real nn-dimensional vector space VV we assign an associated operator function FF defined on an open subset ΩL(V)\Omega\subset\mathcal{L}(V) of linear transformations of VV, such that for each inner product gg on VV, on the subspace Σg(V)L(V)\Sigma_{g}(V)\subset\mathcal{L}(V) of gg-selfadjoint operators, Fg=FΣg(V)F_{g}=F_{|\Sigma_{g}(V)} is the isotropic function associated to ff, which means that Fg(A)=f(EV(A))F_{g}(A)=f(\mathrm{EV}(A)), where EV(A)\mathrm{EV}(A) denotes the ordered nn-tuple of real eigenvalues of AA. We extend some well known relations between the derivatives of ff and each FgF_{g} to relations between ff and FF. By means of an example we show that well known regularity properties of FgF_{g} do not carry over to FF.

Keywords

Cite

@article{arxiv.1703.03321,
  title  = {Isotropic functions revisited},
  author = {Julian Scheuer},
  journal= {arXiv preprint arXiv:1703.03321},
  year   = {2018}
}

Comments

13 pages. Added an example to show that loss of regularity is possible. Extended the bibliography. Comments are welcome

R2 v1 2026-06-22T18:41:11.659Z