Spectral decompositions, ergodic averages, and the Hilbert transform

Earl Berkson, and T. A. Gillespie. "Spectral decompositions, ergodic averages, and the Hilbert transform." Studia Mathematica 144.1 (2001): 39-61. <http://eudml.org/doc/284447>.

@article{EarlBerkson2001,
abstract = {Let U be a trigonometrically well-bounded operator on a Banach space , and denote by $\{ₙ(U)\}_\{n=1\}^\{∞\}$ the sequence of (C,2) weighted discrete ergodic averages of U, that is, $ₙ(U) = 1/n ∑_\{0<|k|≤n\} (1 - |k|/(n+1)) U^\{k\}$. We show that this sequence $\{ₙ(U)\}_\{n=1\}^\{∞\}$ of weighted ergodic averages converges in the strong operator topology to an idempotent operator whose range is x ∈ : Ux = x, and whose null space is the closure of (I - U). This result expands the scope of the traditional Ergodic Theorem, and thereby serves as a link between Banach space spectral theory and ergodic operator theory. We also develop a characterization of trigonometrically well-bounded operators by their ability to “transfer” the discrete Hilbert transform to the Banach space setting via (C,1) weighting of Hilbert averages, and these results together with those on weighted ergodic averages furnish an explicit expression for the spectral decomposition of a trigonometrically well-bounded operator U on a Banach space in terms of strong limits of appropriate averages of the powers of U. We also treat the special circumstances where corresponding results can be obtained with the (C,1) and (C,2) weights removed.},
author = {Earl Berkson, T. A. Gillespie},
journal = {Studia Mathematica},
keywords = {trigonometrically well-bounded operator; spectral decomposition; ergodic averages; Cesàro means; Hilbert transform; Riemann-Stieltjes integral; strong operator topology; ergodic theorem; Banach space spectral theory; discrete Hilbert transform; Hilbert averages},
language = {eng},
number = {1},
pages = {39-61},
title = {Spectral decompositions, ergodic averages, and the Hilbert transform},
url = {http://eudml.org/doc/284447},
volume = {144},
year = {2001},
}

TY - JOUR
AU - Earl Berkson
AU - T. A. Gillespie
TI - Spectral decompositions, ergodic averages, and the Hilbert transform
JO - Studia Mathematica
PY - 2001
VL - 144
IS - 1
SP - 39
EP - 61
AB - Let U be a trigonometrically well-bounded operator on a Banach space , and denote by ${ₙ(U)}_{n=1}^{∞}$ the sequence of (C,2) weighted discrete ergodic averages of U, that is, $ₙ(U) = 1/n ∑_{0<|k|≤n} (1 - |k|/(n+1)) U^{k}$. We show that this sequence ${ₙ(U)}_{n=1}^{∞}$ of weighted ergodic averages converges in the strong operator topology to an idempotent operator whose range is x ∈ : Ux = x, and whose null space is the closure of (I - U). This result expands the scope of the traditional Ergodic Theorem, and thereby serves as a link between Banach space spectral theory and ergodic operator theory. We also develop a characterization of trigonometrically well-bounded operators by their ability to “transfer” the discrete Hilbert transform to the Banach space setting via (C,1) weighting of Hilbert averages, and these results together with those on weighted ergodic averages furnish an explicit expression for the spectral decomposition of a trigonometrically well-bounded operator U on a Banach space in terms of strong limits of appropriate averages of the powers of U. We also treat the special circumstances where corresponding results can be obtained with the (C,1) and (C,2) weights removed.
LA - eng
KW - trigonometrically well-bounded operator; spectral decomposition; ergodic averages; Cesàro means; Hilbert transform; Riemann-Stieltjes integral; strong operator topology; ergodic theorem; Banach space spectral theory; discrete Hilbert transform; Hilbert averages
UR - http://eudml.org/doc/284447
ER -