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NORMAL CYCLIC POLYTOPES AND CYCLIC POLYTOPES THAT ARE NOT VERY AMPLE

Part of: Polytopes and polyhedra Algebraic combinatorics

Published online by Cambridge University Press:  30 September 2013

TAKAYUKI HIBI ,
AKIHIRO HIGASHITANI ,
LUKAS KATTHÄN  and
RYOTA OKAZAKI
TAKAYUKI HIBI
Affiliation:
Department of Pure and Applied Mathematics, Graduate School of Information Science and Technology, Osaka University, Toyonaka, Osaka 560-0043, Japan email hibi@math.sci.osaka-u.ac.jp
AKIHIRO HIGASHITANI*
Affiliation:
Department of Pure and Applied Mathematics, Graduate School of Information Science and Technology, Osaka University, Toyonaka, Osaka 560-0043, Japan email hibi@math.sci.osaka-u.ac.jp
LUKAS KATTHÄN
Affiliation:
Fachbereich Mathematik und Informatik, Philipps-Universität Marburg, 35032 Marburg, Germany email katthaen@mathematik.uni-marburg.de
RYOTA OKAZAKI
Affiliation:
Faculty of Education, Fukuoka University of Education, Munakata, Fukuoka 811-4192, Japan email rokazaki@fukuoka-edu.ac.jp
*
a-higashitani@cr.math.sci.osaka-u.ac.jp
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Abstract

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Let $d$ and $n$ be positive integers such that $n\geq d+ 1$ and ${\tau }_{1} , \ldots , {\tau }_{n} $ integers such that ${\tau }_{1} \lt \cdots \lt {\tau }_{n} $. Let ${C}_{d} ({\tau }_{1} , \ldots , {\tau }_{n} )\subset { \mathbb{R} }^{d} $ denote the cyclic polytope of dimension $d$ with $n$ vertices $({\tau }_{1} , { \tau }_{1}^{2} , \ldots , { \tau }_{1}^{d} ), \ldots , ({\tau }_{n} , { \tau }_{n}^{2} , \ldots , { \tau }_{n}^{d} )$. We are interested in finding the smallest integer ${\gamma }_{d} $ such that if ${\tau }_{i+ 1} - {\tau }_{i} \geq {\gamma }_{d} $ for $1\leq i\lt n$, then ${C}_{d} ({\tau }_{1} , \ldots , {\tau }_{n} )$ is normal. One of the known results is ${\gamma }_{d} \leq d(d+ 1)$. In the present paper a new inequality ${\gamma }_{d} \leq {d}^{2} - 1$ is proved. Moreover, it is shown that if $d\geq 4$ with ${\tau }_{3} - {\tau }_{2} = 1$, then ${C}_{d} ({\tau }_{1} , \ldots , {\tau }_{n} )$ is not very ample.

Keywords

cyclic polytopenormal polytopevery ample polytope

MSC classification

Secondary: 52B20: Lattice polytopes (including relations with commutative algebra and algebraic geometry) 05E40: Combinatorial aspects of commutative algebra 05E45: Combinatorial aspects of simplicial complexes
Type
Research Article
Information
Journal of the Australian Mathematical Society , Volume 96 , Issue 1 , February 2014 , pp. 61 - 77
Copyright
Copyright ©2013 Australian Mathematical Publishing Association Inc. 

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