Moduli space for generic unfolded differential linear systems
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- 作者:Jacques Hurtubisea ; jacques.hurtubise@mcgill.ca ; Christiane Rousseaub ; rousseac@dms.umontreal.ca
- 关键词:Stokes phenomenon ; Irregular singularity ; Unfolding ; Confluence ; Divergent series ; Monodromy ; Analytic classification ; Summability ; Flags ; Moduli space
- 刊名:Advances in Mathematics
- 出版年:2017
- 出版时间:5 February 2017
- 年:2017
- 卷:307
- 期:Complete
- 页码:1268-1323
- 全文大小:1169 K
- 卷排序:307
文摘
In this paper, we identify the moduli space for germs of generic unfoldings of nonresonant linear differential systems with an irregular singularity of Poincaré rank k at the origin, under analytic equivalence. The modulus of a given family was determined in [10]: it comprises a formal part depending analytically on the parameters, and an analytic part given by unfoldings of the Stokes matrices. These unfoldings are given on “Douady–Sentenac” (DS) domains in the parameter space covering the generic values of the parameters corresponding to Fuchsian singular points. Here we identify exactly which moduli can be realized. A necessary condition on the analytic part, called compatibility condition, is saying that the unfoldings define the same monodromy group (up to conjugacy) for the different presentations of the modulus on the intersections of DS domains. With the additional requirement that the corresponding cocycle is trivial and good limit behavior at some boundary points of the DS domains, this condition becomes sufficient. In particular we show that any modulus can be realized by a k -parameter family of systems of rational linear differential equations over CP1CP1 with k+1k+1, k+2k+2 or k+3k+3 singular points (with multiplicities). Under the generic condition of irreducibility, there are precisely k+2k+2 singular points which are Fuchsian as soon as simple. This in turn implies that any unfolding of an irregular singularity of Poincaré rank k is analytically equivalent to a rational system of the form y′=A(x)pϵ(x)⋅y, with A(x)A(x) polynomial of degree at most k and pϵ(x)pϵ(x) is the generic unfolding of the polynomial xk+1xk+1.