Resolvent degree, Hilbert’s 13th Problem and geometry

L’Enseignement Mathématique Pub Date : 2018-03-11 DOI:10.4171/lem/65-3/4-2
B. Farb, J. Wolfson
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引用次数: 16

Abstract

We develop the theory of resolvent degree, introduced by Brauer \cite{Br} in order to study the complexity of formulas for roots of polynomials and to give a precise formulation of Hilbert's 13th Problem. We extend the context of this theory to enumerative problems in algebraic geometry, and consider it as an intrinsic invariant of a finite group. As one application of this point of view, we prove that Hilbert's 13th Problem, and his Sextic and Octic Conjectures, are equivalent to various enumerative geometry problems, for example problems of finding lines on a smooth cubic surface or bitangents on a smooth planar quartic.
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可解度,希尔伯特第13问题和几何
我们发展了Brauer \cite{Br}引入的可解度理论,以研究多项式根公式的复杂性,并给出希尔伯特第13问题的精确公式。我们将这一理论推广到代数几何中的枚举问题,并认为它是有限群的一个固有不变量。作为这一观点的一个应用,我们证明了希尔伯特的第13个问题,以及他的六次方猜想和八次方猜想,等价于各种枚举几何问题,例如在光滑的三次曲面上求直线或在光滑的平面四次曲面上求点的问题。
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L’Enseignement Mathématique
L’Enseignement Mathématique
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