English

Triangularizability of trace-class operators with increasing spectrum

Functional Analysis 2016-12-09 v2

Abstract

For any measurable set EE of a measure space (X,μ)(X, \mu), let PEP_E be the (orthogonal) projection on the Hilbert space L2(X,μ)L^2(X, \mu) with the range ranPE={fL2(X,μ):f=0  a.e. on Ec}ran \, P_E = \{f \in L^2(X, \mu) : f = 0 \ \ a.e. \ on \ E^c\} that is called a standard subspace of L2(X,μ)L^2(X, \mu). Let TT be an operator on L2(X,μ)L^2(X, \mu) having increasing spectrum relative to standard compressions, that is, for any measurable sets EE and FF with EFE \subseteq F, the spectrum of the operator PETranPEP_E T|_{ran \, P_E} is contained in the spectrum of the operator PFTranPFP_F T|_{ran \, P_F}. In 2009, Marcoux, Mastnak and Radjavi asked whether the operator TT has a non-trivial invariant standard subspace. They answered this question affirmatively when either the measure space (X,μ)(X, \mu) is discrete or the operator TT has finite rank. We study this problem in the case of trace-class kernel operators. We also slightly strengthen the above-mentioned result for finite-rank operators.

Keywords

Cite

@article{arxiv.1508.07766,
  title  = {Triangularizability of trace-class operators with increasing spectrum},
  author = {Roman Drnovšek},
  journal= {arXiv preprint arXiv:1508.07766},
  year   = {2016}
}
R2 v1 2026-06-22T10:45:05.545Z