The Journal of the Indian Mathematical Society

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Solvability of Sequence Spaces Equations Using Entire and Analytic Sequences and Applications


Affiliations
1 Universite du Havre, France
     

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Given any sequence z = (zn)n≥1 of positive real numbers and any set E of complex sequences, we write Ez for the set of all sequences y = (yn)n≥1 such that y/z = (yn)/zn))n≥1 ∈ E; in particular, sz(c)) denotes the set of all sequences y such that y/z converges. In this paper we deal with special sequence spaces equations (SSE) with operators, which are determined by an identity each term of which is a sum or a sum of products of sets of the form Xa (T) and Xf(x) (T) where U+ maps to itself, x is either of the symbols s, s0, Γ, or Λ. We solve (SSE) of the form Xa+Xx' = Xb', and systems of the form Xa+Xx'(Δ) = Xb', and Xb' ⊂ Xx', where X, X' are any of the symbols so, s(c), s, Γ, or Λ. For instance the system sa(c) + sx(c) (Δ) = sb(c) and sb(c) ⊂ sx(c) where Δ is the operator of the first difference means that, bn/xn → l1 (n → ∞), for some l1 ∈ C, and for any given y ∈ ω, we have yn/bn → l1 (n → ∞ if and only if there are u, v ∈ s such that y = u + v and un/an → l1 and Δνn/xn → l" (n → ∞) for some scalars l, l' and l".

Keywords

A—Entire Sequence, A—Analytic Sequence, Multiplier of Sets of Sequences, Sequence Spaces Inclusion Equations, Sequence Spaces Equations with Operator.
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  • Solvability of Sequence Spaces Equations Using Entire and Analytic Sequences and Applications

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Authors

Bruno De Malafosse
Universite du Havre, France

Abstract


Given any sequence z = (zn)n≥1 of positive real numbers and any set E of complex sequences, we write Ez for the set of all sequences y = (yn)n≥1 such that y/z = (yn)/zn))n≥1 ∈ E; in particular, sz(c)) denotes the set of all sequences y such that y/z converges. In this paper we deal with special sequence spaces equations (SSE) with operators, which are determined by an identity each term of which is a sum or a sum of products of sets of the form Xa (T) and Xf(x) (T) where U+ maps to itself, x is either of the symbols s, s0, Γ, or Λ. We solve (SSE) of the form Xa+Xx' = Xb', and systems of the form Xa+Xx'(Δ) = Xb', and Xb' ⊂ Xx', where X, X' are any of the symbols so, s(c), s, Γ, or Λ. For instance the system sa(c) + sx(c) (Δ) = sb(c) and sb(c) ⊂ sx(c) where Δ is the operator of the first difference means that, bn/xn → l1 (n → ∞), for some l1 ∈ C, and for any given y ∈ ω, we have yn/bn → l1 (n → ∞ if and only if there are u, v ∈ s such that y = u + v and un/an → l1 and Δνn/xn → l" (n → ∞) for some scalars l, l' and l".

Keywords


A—Entire Sequence, A—Analytic Sequence, Multiplier of Sets of Sequences, Sequence Spaces Inclusion Equations, Sequence Spaces Equations with Operator.