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1
Content available remote

Norm convergence of some power series of operators in $L^{p}$ with applications in ergodic theory

100%
Cuny C.
Studia Mathematica
|
2010
|
tom 200
|
nr 1
1-29
EN
Let X be a closed subspace of $L^{p}(μ)$, where μ is an arbitrary measure and 1 < p < ∞. Let U be an invertible operator on X such that $sup_{n∈ ℤ} ||Uⁿ|| < ∞$. Motivated by applications in ergodic theory, we obtain (optimal) conditions for the convergence of series like $∑_{n≥1} (Uⁿf)/n^{1-α}$, 0 ≤ α < 1, in terms of $||f + ⋯ + U^{n-1}f||_{p}$, generalizing results for unitary (or normal) operators in L²(μ). The proofs make use of the spectral integration initiated by Berkson and Gillespie and, more particularly, of results from a paper by Berkson-Bourgain-Gillespie.
2
Content available remote

Almost everywhere convergence of generalized ergodic transforms for invertible power-bounded operators in $L^{p}$

100%
Cuny C.
Colloquium Mathematicum
|
2011
|
tom 124
|
nr 1
61-77
EN
We show that some results of Gaposhkin about a.e. convergence of series associated to a unitary operator U acting on L²(X,Σ,μ) (μ is a σ-finite measure) may be extended to the case where U is an invertible power-bounded operator acting on $L^{p}(X,Σ,μ)$, p > 1. The proofs make use of the spectral integration initiated by Berkson-Gillespie and, more specifically, of recent results of the author.
3
Content available remote

On the convergence of moments in the CLT for triangular arrays with an application to random polynomials

64%
Cuny C., Weber M.
Colloquium Mathematicum
|
2006
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tom 106
|
nr 1
147-160
EN
We give a proof of convergence of moments in the Central Limit Theorem (under the Lyapunov-Lindeberg condition) for triangular arrays, yielding a new estimate of the speed of convergence expressed in terms of νth moments. We also give an application to the convergence in the mean of the pth moments of certain random trigonometric polynomials built from triangular arrays of independent random variables, thereby extending some recent work of Borwein and Lockhart.
4
Content available remote

On Billard's Theorem for Random Fourier Series

64%
Cohen G., Cuny C.
Bulletin of the Polish Academy of Sciences. Mathematics
|
2005
|
tom 53
|
nr 1
39-53
EN
We show that Billard's theorem on a.s. uniform convergence of random Fourier series with independent symmetric coefficients is not true when the coefficients are only assumed to be centered independent. We give some necessary or sufficient conditions to ensure the validity of Billard's theorem in the centered case.
5
Content available remote

The one-sided ergodic Hilbert transform in Banach spaces

51%
Cohen G., Cuny C., Lin M.
Studia Mathematica
|
2010
|
tom 196
|
nr 3
251-263
EN
Let T be a power-bounded operator on a (real or complex) Banach space. We study the convergence of the one-sided ergodic Hilbert transform $lim_{n} ∑_{k=1}^{n} (T^{k}x)/k$. We prove that weak and strong convergence are equivalent, and in a reflexive space also $sup_{n} ||∑_{k=1}^{n} (T^{k}x)/k|| < ∞$ is equivalent to the convergence. We also show that $-∑_{k=1}^{∞} (T^{k})/k$ (which converges on (I-T)X) is precisely the infinitesimal generator of the semigroup $(I-T)^{r}_{|\overline{(I-T)X}}$.
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