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Gosset Polytopes in Picard Groups of del Pezzo Surfaces

Published online by Cambridge University Press:  20 November 2018

Jae-Hyouk Lee*
Affiliation:
Korea Institute for Advanced Study, KIAS Hoegiro 87(207-43 Cheongnyangni-dong), Dongdaemun-gu, Seoul 130-722, Korea and Department ofMathematics, EwhaWomans University, 11-1 Daehyun-dong, Seodaenum-gu, Seoul 120-750, Korea email: jaehyoukl@gmail.com, jaehyoukl@ewha.ac.kr
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Abstract

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In this article, we study the correspondence between the geometry of del Pezzo surfaces ${{s}_{r}}$ and the geometry of the $r$-dimensional Gosset polytopes (${{(r-4)}_{21}}$. We construct Gosset polytopes ${{(r-4)}_{21}}$ in Pic ${{S}_{r}}\,\otimes \,\mathbb{Q}$ whose vertices are lines, and we identify divisor classes in Pic ${{s}_{r}}$ corresponding to $(a-1)$-simplexes $(a\le r)$, $(r-1)$-simplexes and $(r-1)$-crosspolytopes of the polytope ${{(r-4)}_{21}}$. Then we explain how these classes correspond to skew $a$-lines$(a\le r)$, exceptional systems, and rulings, respectively.

As an application, we work on the monoidal transform for lines to study the local geometry of the polytope ${{(r-4)}_{21}}$. And we show that the Gieser transformation and the Bertini transformation induce a symmetry of polytopes ${{3}_{21}}$ and ${{4}_{21}}$, respectively.

Keywords

Type
Research Article
Copyright
Copyright © Canadian Mathematical Society 2012

References

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