One-scale H-distributions and variants
Abstract
H-measures and semiclassical (Wigner) measures were introduced in earlyn 1990s and since then they have found numerous applications in problems involving weakly converging sequences. Although they are similar objects, neither of them is a generalisation of the other, the fundamental difference between them being the fact that semiclassical measures have a characteristic length, while H-measures have none. Recently introduced objects, the one-scale H-measures, generalise both of them, thus encompassing properties of both. The main aim of this paper is to fully develop this theory to the setting, , by constructing one-scale H-distributions, a generalisation of one-scale H-measures and, at the same time, of H-distributions, a generalisation of H-measures to the setting, without any characteristic length. We also address an alternative approach to extension of semiclassical measures via the Wigner transform, introducing new type of objects (semiclassical distributions). Furthermore, we derive a localisation principle in a rather general form, suitable for problems with a characteristic length, as well as those without a specific characteristic length, providing some applications.
Cite
@article{arxiv.2201.11431,
title = {One-scale H-distributions and variants},
author = {Nenad Antonić and Marko Erceg},
journal= {arXiv preprint arXiv:2201.11431},
year = {2023}
}
Comments
43 pages, 3 figures