We investigate a basisity problem in the space =lpA(D)and in its invariant sub-spaces. Namely, let W denote a unilateral weighted shift operator acting in the spacelpA(D), 1≤p《∞, by W zn=λnzn+1, n≥0, with re...We investigate a basisity problem in the space =lpA(D)and in its invariant sub-spaces. Namely, let W denote a unilateral weighted shift operator acting in the spacelpA(D), 1≤p《∞, by W zn=λnzn+1, n≥0, with respect to the standard basis λzn+1 n≥0. Applying the so-called "discrete Duhamel product" technique, it is proven that for any integer k ≥1 the sequence {(wi+nk)-1|W |Ei)knf}n≥0 is a basic sequence in Ei :=span{zi+n :n≥0} equivalent to the basis {zi+n}n≥0 if and only if fb(i) 6= 0. We also investigate a Banach algebra structure for the subspaces Ei, i≥0.展开更多
基金supported by King Saud University,Deanship of Scientific Research,College of Science Research Center
文摘We investigate a basisity problem in the space =lpA(D)and in its invariant sub-spaces. Namely, let W denote a unilateral weighted shift operator acting in the spacelpA(D), 1≤p《∞, by W zn=λnzn+1, n≥0, with respect to the standard basis λzn+1 n≥0. Applying the so-called "discrete Duhamel product" technique, it is proven that for any integer k ≥1 the sequence {(wi+nk)-1|W |Ei)knf}n≥0 is a basic sequence in Ei :=span{zi+n :n≥0} equivalent to the basis {zi+n}n≥0 if and only if fb(i) 6= 0. We also investigate a Banach algebra structure for the subspaces Ei, i≥0.
