Cyclic properties of Volterra operator

Abstract: A bounded linear operator T defined on a Hilbert space H is said to be supercyclic if there exists a vector x ∈ H such that the set {λT n x : n ∈ N, λ ∈ C} is dense in H. In the present work, two open questions posed by N. H. Salas and J. Zemánek respectively, are solved. Namely, we will exhibit that the classical Volterra operator V and the identity plus Volterra operator I + V are not supercyclic.

“…Our approach has nothing in common with the ones from [3] or [14]. In [14] it is shown that positive operators commuting with V are not weakly supercyclic and, naturally, the proof employs positivity argument.…”

“…We refer to the survey [18] for the details. Weak supercyclicity was introduced by Sanders [24] and studied in, for instance, [14,15,20,22,25,27]. Gallardo and Montes [8], answering a question raised by Salas, demonstrated that the Volterra operator…”

“…In [20,14] it is shown that V is not weakly supercyclic. In [26] it is proved that for 1 < p < ∞ and any non-zero f ∈ L p [0, 1], the sequence V n f / V n f is weakly convergent to 0 in L p [0,1].…”

“…In [26] it is proved that for 1 < p < ∞ and any non-zero f ∈ L p [0, 1], the sequence V n f / V n f is weakly convergent to 0 in L p [0,1]. In [3] and [14] it is demonstrated that certain operators on L p [0, 1], commuting with V , are not weakly supercyclic. Léon and Piqueras [14] raised a question whether any bounded operator on L p [0, 1] for 1 p < ∞, commuting with V , is not weakly supercyclic.…”

“…In [3] and [14] it is demonstrated that certain operators on L p [0, 1], commuting with V , are not weakly supercyclic. Léon and Piqueras [14] raised a question whether any bounded operator on L p [0, 1] for 1 p < ∞, commuting with V , is not weakly supercyclic. In the present article we close the issue by answering this question affirmatively.…”

Operators Commuting with the Volterra Operator are not Weakly Supercyclic

“…Our approach has nothing in common with the ones from [3] or [14]. In [14] it is shown that positive operators commuting with V are not weakly supercyclic and, naturally, the proof employs positivity argument.…”

“…We refer to the survey [18] for the details. Weak supercyclicity was introduced by Sanders [24] and studied in, for instance, [14,15,20,22,25,27]. Gallardo and Montes [8], answering a question raised by Salas, demonstrated that the Volterra operator…”

“…In [20,14] it is shown that V is not weakly supercyclic. In [26] it is proved that for 1 < p < ∞ and any non-zero f ∈ L p [0, 1], the sequence V n f / V n f is weakly convergent to 0 in L p [0,1].…”

“…In [26] it is proved that for 1 < p < ∞ and any non-zero f ∈ L p [0, 1], the sequence V n f / V n f is weakly convergent to 0 in L p [0,1]. In [3] and [14] it is demonstrated that certain operators on L p [0, 1], commuting with V , are not weakly supercyclic. Léon and Piqueras [14] raised a question whether any bounded operator on L p [0, 1] for 1 p < ∞, commuting with V , is not weakly supercyclic.…”

“…In [3] and [14] it is demonstrated that certain operators on L p [0, 1], commuting with V , are not weakly supercyclic. Léon and Piqueras [14] raised a question whether any bounded operator on L p [0, 1] for 1 p < ∞, commuting with V , is not weakly supercyclic. In the present article we close the issue by answering this question affirmatively.…”

Operators Commuting with the Volterra Operator are not Weakly Supercyclic

Weak Supercyclicity—An Expository Survey

Super convex-cyclicity and the Volterra operator