English

Reflection positivity on real intervals

Functional Analysis 2016-12-20 v2

Abstract

We study functions f : (a,b) ---> R on open intervals in R with respect to various kinds of positive and negative definiteness conditions. We say that f is positive definite if the kernel f((x + y)/2) is positive definite. We call f negative definite if, for every h > 0, the function e^{-hf} is positive definite. Our first main result is a L\'evy--Khintchine formula (an integral representation) for negative definite functions on arbitrary intervals. For (a,b) = (0,\infty) it generalizes classical results by Bernstein and Horn. On a symmetric interval (-a,a), we call f reflection positive if it is positive definite and, in addition, the kernel f((x - y)/2) is positive definite. We likewise define reflection negative functions and obtain a L\'evy--Khintchine formula for reflection negative functions on all of R. Finally, we obtain a characterization of germs of reflection negative functions on 0-neighborhoods in R.

Keywords

Cite

@article{arxiv.1608.04010,
  title  = {Reflection positivity on real intervals},
  author = {P. Jorgensen and K. -H. Neeb and G. Olafsson},
  journal= {arXiv preprint arXiv:1608.04010},
  year   = {2016}
}

Comments

Final version, to appear in "Semigroup Forum"

R2 v1 2026-06-22T15:19:09.658Z