Riesz idempotent, spectral mapping theorem and Weyl's theorem for (m,n)^*-paranormal operators

IF 0.3 Q4 STATISTICS & PROBABILITY Random Operators and Stochastic Equations Pub Date : 2023-07-29 DOI:10.1515/rose-2023-2016

Sonu Ram, Preeti Dharmarha

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Abstract

Abstract In this paper, we show that the spectral mapping theorem holds for ( m , n ) * {(m,n)^{*}} -paranormal operators. We also exhibit the self-adjointness of the Riesz idempotent E λ {E_{\lambda}} of ( m , n ) * {(m,n)^{*}} -paranormal operators concerning for each isolated point λ of σ ⁢ ( T ) {\sigma(T)} . Moreover, we show Weyl’s theorem for ( m , n ) * {(m,n)^{*}} -paranormal operators and f ⁢ ( T ) {f(T)} for every f ∈ ℋ ⁢ ( σ ⁢ ( T ) ) {f\in\mathcal{H}(\sigma(T))} . Furthermore, we investigate the class of totally ( m , n ) * {(m,n)^{*}} -paranormal operators and show that Weyl’s theorem holds for operators in this class.

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(m,n)*-超常算子的Riesz幂等、谱映射定理和Weyl定理

摘要本文证明了谱映射定理对(m,n) * {(m,n)^{* }}-超正规算子成立。我们还{证明了(m,n) * (m,n)*的Riesz幂等E λ E_ {\lambda}}的自伴随性，这些{算子与σ (T) {}}{\sigma (T)的每个孤立点λ有关}。此外，我们证明了Weyl定理对于(m,n) *{ (m,n)^{*}} -超正规算子和f{(T)对于每一个f}∈h ＿ h ＿ (σ ＿ (T)) {f\in\mathcal{H} (\sigma (T))}。进一步研究了一类完全(m,n) *{ (m,n)^{*}} -超正规算子，并证明了Weyl定理对该类算子成立。

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Random Operators and Stochastic Equations STATISTICS & PROBABILITY-

CiteScore

0.60

自引率

25.00%

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