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COMBINATORICS
2004
2004
Geometrically Constructed Bases for Homology of Partition Lattices
Abstract. We use the theory of hyperplane arrangements to construct natural bases for the homology of partition lattices of types A, B and D. This extends and explains the "splitting basis" for the homology of the partition lattice given in [20], thus answering a question asked by R. Stanley. More explicitly, the following general technique is presented and utilized. Let A be a central and essential hyperplane arrangement in Rd . Let R1, . . . , Rk be the bounded regions of a generic hyperplane section of A. We show that there are induced polytopal cycles Ri in the homology of the proper part LA of the intersection lattice such that {Ri }i=1,...,k is a basis for Hd-2(LA). This geometric method for constructing combinatorial homology bases is applied to the Coxeter arrangements of types A, B and D, and to some interpolating arrangements.
Real-time TrafficCOMBINATORICS 2004 | Essential Hyperplane Arrangement | Hyperplane Arrangement | Partition Lattice |
| Added | 17 Dec 2010 |
| Updated | 17 Dec 2010 |
| Type | Journal |
| Year | 2004 |
| Where | COMBINATORICS |
| Authors | Anders Björner, Michelle L. Wachs |
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