Armin Rainer
Published 2011-11-18, updated 2012-04-12Version 2
Let $E \ni x\mapsto A(x)$ be a $\mathscr{C}$-mapping with values unbounded normal operators with common domain of definition and compact resolvent. Here $\mathscr{C}$ stands for $C^\infty$, $C^\omega$ (real analytic), $C^{[M]}$ (Denjoy--Carleman of Beurling or Roumieu type), $C^{0,1}$ (locally Lipschitz), or $C^{k,\alpha}$. The parameter domain $E$ is either $\mathbb R$ or $\mathbb R^n$ or an infinite dimensional convenient vector space. We completely describe the $\mathscr{C}$-dependence on $x$ of the eigenvalues and the eigenvectors of $A(x)$. Thereby we extend previously known results for self-adjoint operators to normal operators, partly improve them, and show that they are best possible. For normal matrices $A(x)$ we obtain partly stronger results.
Comments: 32 pages, Remark 7.5 on m-sectorial operators added, accepted for publication in Trans. Amer. Math. Soc
Journal: Trans. Amer. Math. Soc., 365 (2013), 5545--5577
Multiple operator integrals in perturbation theory
Denjoy-Carleman differentiable perturbation of polynomials and unbounded operators
Perturbation theory of polynomials and linear operators
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