Arrangements of HyperplanesSpringer Science & Business Media, 2013年3月9日 - 325页 An arrangement of hyperplanes is a finite collection of codimension one affine subspaces in a finite dimensional vector space. Arrangements have emerged independently as important objects in various fields of mathematics such as combinatorics, braids, configuration spaces, representation theory, reflection groups, singularity theory, and in computer science and physics. This book is the first comprehensive study of the subject. It treats arrangements with methods from combinatorics, algebra, algebraic geometry, topology, and group actions. It emphasizes general techniques which illuminate the connections among the different aspects of the subject. Its main purpose is to lay the foundations of the theory. Consequently, it is essentially self-contained and proofs are provided. Nevertheless, there are several new results here. In particular, many theorems that were previously known only for central arrangements are proved here for the first time in completegenerality. The text provides the advanced graduate student entry into a vital and active area of research. The working mathematician will findthe book useful as a source of basic results of the theory, open problems, and a comprehensive bibliography of the subject. |
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... Rank ≥ 3 B.4 The Coexponents C. Orbit Types D. Three - Dimensional Restrictions References Index Index of Symbols 279 279 280 280 286 289 301 303 315 323 List of Figures · 1.1 An illustration of chamber counting Table of Contents XIII.
... Rank ≥ 3 B.4 The Coexponents C. Orbit Types D. Three - Dimensional Restrictions References Index Index of Symbols 279 279 280 280 286 289 301 303 315 323 List of Figures · 1.1 An illustration of chamber counting Table of Contents XIII.
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... Orbits in G25 6.4 Induction table for G25 · 249 253 254 6.5 The associated pairs ( G , W ) 267 B.1 Exponents and coexponents 287 B.2 The monomial groups . 288 C.1 The rank 2 groups ( I ) 289 C.2 The ... Orbits in Eg ( II ) C.23 Orbits in.
... Orbits in G25 6.4 Induction table for G25 · 249 253 254 6.5 The associated pairs ( G , W ) 267 B.1 Exponents and coexponents 287 B.2 The monomial groups . 288 C.1 The rank 2 groups ( I ) 289 C.2 The ... Orbits in Eg ( II ) C.23 Orbits in.
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Peter Orlik, Hiroaki Terao. C.22 Orbits in Eg ( II ) C.23 Orbits in Es ( III ) D.1 The infinite families . D.2 Coxeter groups D.3 The remaining groups 299 300 302 302 302 1. Introduction 1.1 Introduction Show that n cuts can divide XVIII ...
Peter Orlik, Hiroaki Terao. C.22 Orbits in Eg ( II ) C.23 Orbits in Es ( III ) D.1 The infinite families . D.2 Coxeter groups D.3 The remaining groups 299 300 302 302 302 1. Introduction 1.1 Introduction Show that n cuts can divide XVIII ...
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... orbit types and related information is presented for the irreducible groups in Appendix C. We study the structure of L ( A ) and determine for all X € L ( A ) the structure of the restriction L ( A ) . This work on the restrictions L ...
... orbit types and related information is presented for the irreducible groups in Appendix C. We study the structure of L ( A ) and determine for all X € L ( A ) the structure of the restriction L ( A ) . This work on the restrictions L ...
第159页
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目录
1 | |
4 | |
15 | |
22 | |
Examples | 30 |
Algebras | 59 |
The Injective Map AAx AA | 65 |
Supersolvable Arrangements | 80 |
115 | 204 |
Reflection Arrangements | 215 |
A Some Commutative Algebra 271 | 270 |
B Basic Derivations | 279 |
Orbit Types | 289 |
ThreeDimensional Restrictions | 301 |
164 | 310 |
Index | 315 |
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常见术语和短语
A₁ affine arrangement algebra A(A arrangement and let assume b₁ basic derivations basic invariants basis for D(A bijection braid arrangement broken circuit called central arrangement choose cohomology complement complex reflection groups complexification compute Corollary Coxeter group defining polynomial Definition deformation retraction degree denote exact sequence Example exterior product fiber finite follows from Lemma follows from Proposition follows from Theorem formula free arrangement free with exp fundamental group G-orbit graph H₁ H₂ homogeneous homotopy type hyperplane arrangement inductively free integers irreducible isomorphism ker(x l-arrangement lattice Lemma Let G linear linearly independent Math matrix maximal element Möbius function modular elements nonempty Note Orbits Poincaré polynomial poset Proof prove real arrangement Recall reflection arrangement restriction result Section set of basic Shephard groups simplicial subset subspace supersolvable Suppose surjective topological unitary reflection group vertex w₁ write