Nash multiplicity sequences and Hironaka's order function
Abstract
When is a -dimensional variety defined over a field of characteristic zero, a constructive resolution of singularities can be achieved by successively lowering the maximum multiplicity via blow ups at smooth equimultiple centers. This is done by stratifying the maximum multiplicity locus of by means of the so called {\em resolution functions}. The most important of these functions is what we know as {\em Hironaka's order function in dimension }. Actually, this function can be defined for varieties when the base field is perfect; however if the characteristic of is positive, the function is, in general, too coarse and does not provide enough information so as to define a resolution. It is very natural to ask what the meaning of this function is in this case, and to try to find refinements that could lead, ultimately, to a resolution. In this paper we show that Hironaka's order function in dimension can be read in terms of the {\em Nash multiplicity sequences} introduced by Lejeune-Jalabert. Therefore, the function is intrinsic to the variety and has a geometrical meaning in terms of its space of arcs.
Cite
@article{arxiv.1802.02566,
title = {Nash multiplicity sequences and Hironaka's order function},
author = {A. Bravo and S. Encinas and B. Pascual-Escudero},
journal= {arXiv preprint arXiv:1802.02566},
year = {2021}
}
Comments
Minor changes, corrected errata, and additional details given in Proposition 5.9. Accepted for publication in Indiana University Mathematics Journal