2011
DOI: 10.1002/mana.200910029
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m‐isometries on Banach spaces

Abstract: We introduce the notion of an m-isometry of a Banach space, following a definition of Agler and Stankus in the Hilbert space setting. We give a first approach to the general theory of these maps. Then, we focus on the dynamics of m-isometries, showing that they are never N -supercyclic. This result is new even on a Hilbert space, and even for isometries on a general Banach space.

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Cited by 72 publications
(41 citation statements)
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“…For partial results see [14]. We recall the notion of an (m, p)-isometry in general Banach spaces, introduced by Bayart in [5].…”
Section: Proposition 83 If a Hyponormal Operator T ∶ H → H Is Recurmentioning
confidence: 99%
“…For partial results see [14]. We recall the notion of an (m, p)-isometry in general Banach spaces, introduced by Bayart in [5].…”
Section: Proposition 83 If a Hyponormal Operator T ∶ H → H Is Recurmentioning
confidence: 99%
“…In this section, we cite some basic results concerning (m, p)-isometric operators proven by Bayart in [5]. There, it is assumed that p ≥ 1, but on inspection it is clear that that this restriction is unnecessary and one can allow p ∈ (0, ∞).…”
Section: Preliminariesmentioning
confidence: 99%
“…Bayart proves in [5,Theorem 3.4] that an isometry on a complex infinite-dimensional Banach space is not N -supercyclic, for any N ≥ 1. Hence, Theorem 5.2 implies:…”
Section: (M ∞)-And (M P)-isometriesmentioning
confidence: 99%
“…Also, sufficient conditions under which an m-isometric operator is not N -supercyclic are given by Bermúdez et al(see [6]). Bayart [4] completed the result by showing that m-isometric operators cannot be N -supercyclic. Sufficient conditions under which an A-m-isometry is not supercyclic or N -supercyclic are given by Rabaoui and Saddi in [13].…”
Section: Let H Denote An Infinite Dimensional Hilbert Space and B(h) mentioning
confidence: 96%