Quotient Complexes and Lexicographic Shellability
Axel Hultman
Kungl. Tekniska Hogskolan SE-100 44 Stockholm Sweden
DOI: 10.1023/A:1020886515443
Abstract
Let D \mathcal{D} n and the k,h-equal subspace arrangement of type B \mathcal{B} n respectively. Denote by S n B S_n^B the group of signed permutations. We show that S n B S_n^B is collapsible. For S n B S_n^B , h < k, we show the following. If n \tfrac2 n k \tfrac{{2n}}{k} . If n 2\tfrac n - h k - 1 2\tfrac{{n - h}}{k} - 1 . Otherwise, it is contractible. Immediate consequences for the multiplicity of the trivial characters in the representations of S n B S_n^B on the homology groups of S n B S_n^B is established using a discrete Morse function. The same method is used to show that S n B S_n^B , h < k, is homotopy equivalent to a certain subcomplex. The homotopy type of this subcomplex is calculated by showing that it is shellable. To do this, we are led to introduce a lexicographic shelling condition for balanced cell complexes of boolean type. This extends to the non-pure case work of P. Hersh (Preprint, 2001) and specializes to the CL-shellability of A. Björner and M. Wachs ( Trans. Amer. Math. Soc. 4 (1996), 1299-1327) when the cell complex is an order complex of a poset.
Pages: 83–96
Keywords: quotient complex; cell complex of Boolean type; lexicographic shellability; Coxeter subspace arrangement; homotopy
Full Text: PDF
References
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9. G.E. Bredon, Introduction to Compact Transformation Groups, Academic Press, New York, 1972.
10. M. Chari, “On discrete Morse functions and combinatorial decompositions,” Discrete Math. 217 (2000), 101-113.
11. A. Duval, “Free resolutions of simplicial posets,” J. Algebra 188 (1997), 363-399.
12. R. Forman, “Morse theory for cell complexes,” Adv. in Math. 134 (1998), 90-145.
13. A. Garsia and D. Stanton, “Group actions of Stanley-Reisner rings and invariants of permutation groups,” Adv. in Math. 51 (1984), 107-201.
14. P. Hersh,“ Lexicographic shellability for balanced complexes,” preprint, 2001.
15. J.E. Humphreys, Reflection Groups and Coxeter Groups, Cambridge University Press, 1990.
16. D. Kozlov, “General lexicographic shellability and orbit arrangements,” Ann. Comb. 1 (1997), 67-90.
17. D. Kozlov, “Collapsibility of ( n)/Sn and some related CW complexes,” Proc. Amer. Math. Soc. 128 (2000), 2253-2259.
18. D. Kozlov, “Rational homology of spaces of complex monic polynomials with multiple roots,” Math. CO/0111167.
19. J.R. Munkres, Elements of Algebraic Topology, Addison-Wesley, Menlo Park, 1984.
20. V. Reiner, “Quotients of Coxeter complexes and P-partitions,” Memoirs. Amer. Math. Soc. 95 (1992).
21. R.P. Stanley, “ f -vectors and h-vectors of simplicial posets,” J. Pure and Applied Algebra 71 (1991), 319-331.
22. R.P. Stanley, Enumerative Combinatorics, Vol. 1, Cambridge University Press, 1997.
23. V. Welker, “The topology of posets and orbit posets,” in Coding Theory, Design Theory, Group Theory, Burlington, VT, 1990, Wiley-Interscience, Wiley, New York, 1993, pp. 283-289.
24. T. Zaslavsky, “Signed graphs,” Discrete Appl. Math. 4 (1982), 47-74.