Spectra originating from semi-B-Fredholm theory and commuting perturbations

Zeng, Qingping; Jiang, Qiaofen; Zhong, Huaijie

doi:10.4064/sm219-1-1

Cited by 15 publications

(8 citation statements)

References 28 publications

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“…(i) This follows from Theorem 2.7 and [6, Theorem 2.6]. (ii) We conclude from[28, Theorem 2.8] that σ SBF − + (T + K) = σ SBF − + (T ). By assumption we have σ a (T + K) = σ a (T ), so…”

mentioning

confidence: 69%

“…In this section we are interested to study the stability of property (Bgw) under perturbations by nilpotent operators, by finite rank operators, by quasi-nilpotent operators and by Riesz operators commuting with T . We begin with this lemma: Lemma 3.1 [28] Let T ∈ B(X) and let N ∈ B(X) be a nilpotent operator commuting with T . Then E 0 (T + N ) = E 0 (T ).…”

Section: Property (Bgw) Under Perturbationsmentioning

confidence: 99%

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PROPERTY (Bgw) AND PERTURBATIONS

Rashid¹,

Prasad²

2014

Annals of the Alexandru Ioan Cuza University - Mathematics

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A Banach space operator T satisfies property (Bgw) if the complement in the approximate point spectrum σa(T) of the semi-B-essential approximate point spectrum σSHF+-(T) coincides with the set of isolated eigenvalues of T of Unite multiplicity E°(T). We find conditions for Banach Space operator tosatfafy the property (Bgw). We also study the stability of property (Bgw) under perturbations by nilpotent operators, by finite rank operators, by quasi-nilpotent operators and by Riesz operators commuting with T.

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mentioning

confidence: 69%

Section: Property (Bgw) Under Perturbationsmentioning

confidence: 99%

PROPERTY (Bgw) AND PERTURBATIONS

Rashid¹,

Prasad²

2014

Annals of the Alexandru Ioan Cuza University - Mathematics

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“…Proof. We have σ d (T ) = σ d (T + K) and σ ld (T ) = σ ld (T + K), see [35,Theorem 2.11], or [13,Theorem 2.8]. By Lemma 3.14 we then obtain Π(T ) = Π(T + K) and Π a (T ) = Π a (T + K).…”

Section: Property (Gab) Through Localized Svep 105mentioning

confidence: 98%

Property (gab) through localized SVEP

Aiena

Triolo

2015

Moroccan Journal of Pure and Applied Analysis

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In this article we study the property (gab) for a bounded linear operator T ∈ L(X)\ud on a Banach space X which is a stronger variant of Browder’s theorem. We shall give several\ud characterizations of property (gab). These characterizations are obtained by using typical tools\ud from local spectral theory. We also show that property (gab) holds for large classes of operators\ud and prove the stability of property (gab) under some commuting perturbations

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“…T is upper semi-B-Fredholm and ind(T ) ≤ 0). It is established in [24] that if T ∈ B(X) is B-Weyl (resp. upper semi-B-Weyl) and F ∈ B(X) is an operator satisfying F n ∈ F(X) for some n ∈ N that commutes with T , then T + F also is B-Weyl (resp.…”

Section: Introductionmentioning

confidence: 99%

Property $(aBw)$ and perturbations

Zeng¹

2015

Ann. Funct. Anal.

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A bounded linear operator T acting on a Banach space X satisfies property (aBw), a strong version of a-Weyl's theorem, if the complement in the approximate point spectrum σ a (T ) of the upper semi-B-Weyl spectrum σ U SBW (T ) is the set of all isolated points of approximate point spectrum which are eigenvalues of finite multiplicity. In this paper we investigate the property (aBw) in connection with Weyl type theorems. In particular, we show that T satisfies property (aBw) if and only if T satisfies a-Weyl's theorem and σ U SBW (T ) = σ U SW (T ), where σ U SW (T ) is the upper semi-Weyl spectrum of T . The preservation of property (aBw) is also studied under commuting nilpotent, quasi-nilpotent, power finite rank or Riesz perturbations. The theoretical results are illustrated by some concrete examples.

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Spectra originating from semi-B-Fredholm theory and commuting perturbations

Cited by 15 publications

References 28 publications

PROPERTY (Bgw) AND PERTURBATIONS

PROPERTY (Bgw) AND PERTURBATIONS

Property (gab) through localized SVEP

Property $(aBw)$ and perturbations

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