On the minimal number of matrices which form a locally hypercyclic, non-hypercyclic tuple
Costakis G, Hadjiloucas D, Manoussos A (2010)
Journal of Mathematical Analysis and Applications 365(1): 229-237.
Zeitschriftenaufsatz
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Autor*in
Costakis, G.;
Hadjiloucas, D.;
Manoussos, AntoniosUniBi
Einrichtung
Abstract / Bemerkung
In this paper we extend the notion of a locally hypercyclic operator to that of a locally hypercyclic tuple of operators. We then show that the class of hypercyclic tuples of operators forms a proper Subclass to that of locally hypercyclic tuples of operators. What is rather remarkable is that in every finite dimensional vector space over R or C, a pair of commuting matrices exists which forms a locally hypercyclic, non-hypercyclic tuple. This comes in direct contrast to the case of hypercyclic tuples where the minimal number of matrices required for hypercyclicity is related to the dimension of the vector space. In this direction we prove that the minimal number of diagonal matrices required to form a hypercyclic tuple on R-n is n + 1, thus complementing a recent result due to Feldman. (C) 2009 Elsevier Inc. All rights reserved.
Stichworte
J-class;
Locally hypercyclic operators;
Hypercyclic operators;
operators;
Tuples of matrices
Erscheinungsjahr
2010
Zeitschriftentitel
Journal of Mathematical Analysis and Applications
Band
365
Ausgabe
1
Seite(n)
229-237
ISSN
0022-247X
Page URI
https://pub.uni-bielefeld.de/record/1588794
Zitieren
Costakis G, Hadjiloucas D, Manoussos A. On the minimal number of matrices which form a locally hypercyclic, non-hypercyclic tuple. Journal of Mathematical Analysis and Applications. 2010;365(1):229-237.
Costakis, G., Hadjiloucas, D., & Manoussos, A. (2010). On the minimal number of matrices which form a locally hypercyclic, non-hypercyclic tuple. Journal of Mathematical Analysis and Applications, 365(1), 229-237. https://doi.org/10.1016/j.jmaa.2009.10.020
Costakis, G., Hadjiloucas, D., and Manoussos, Antonios. 2010. “On the minimal number of matrices which form a locally hypercyclic, non-hypercyclic tuple”. Journal of Mathematical Analysis and Applications 365 (1): 229-237.
Costakis, G., Hadjiloucas, D., and Manoussos, A. (2010). On the minimal number of matrices which form a locally hypercyclic, non-hypercyclic tuple. Journal of Mathematical Analysis and Applications 365, 229-237.
Costakis, G., Hadjiloucas, D., & Manoussos, A., 2010. On the minimal number of matrices which form a locally hypercyclic, non-hypercyclic tuple. Journal of Mathematical Analysis and Applications, 365(1), p 229-237.
G. Costakis, D. Hadjiloucas, and A. Manoussos, “On the minimal number of matrices which form a locally hypercyclic, non-hypercyclic tuple”, Journal of Mathematical Analysis and Applications, vol. 365, 2010, pp. 229-237.
Costakis, G., Hadjiloucas, D., Manoussos, A.: On the minimal number of matrices which form a locally hypercyclic, non-hypercyclic tuple. Journal of Mathematical Analysis and Applications. 365, 229-237 (2010).
Costakis, G., Hadjiloucas, D., and Manoussos, Antonios. “On the minimal number of matrices which form a locally hypercyclic, non-hypercyclic tuple”. Journal of Mathematical Analysis and Applications 365.1 (2010): 229-237.
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