TY - JOUR
T1 - THE INTEGER DECOMPOSITION PROPERTY AND WEIGHTED PROJECTIVE SPACE SIMPLICES
AU - Braun, Benjamin
AU - Davis, Robert
AU - Hanely, Derek
AU - Lane, Morgan
AU - Solus, Liam
N1 - Publisher Copyright:
© 2024, Colgate University. All rights reserved.
PY - 2024
Y1 - 2024
N2 - Reflexive lattice polytopes play a key role in combinatorics, algebraic geometry, physics, and other areas. One important class of lattice polytopes are lattice sim-plices defining weighted projective spaces. We investigate the question of when a reflexive weighted projective space simplex has the integer decomposition prop-erty. We provide a complete classification of reflexive weighted projective space simplices having the integer decomposition property for the case when there are at most three distinct non-unit weights, and conjecture a general classification for an arbitrary number of distinct non-unit weights. Further, for any weighted projective space simplex and m ≥ 1, we define the m-th reflexive stabilization, a reflexive weighted projective space simplex. We prove that when m is 2 or greater, reflexive stabilizations do not have the integer decomposition property. We also prove that as long as one weight is at least three, the Ehrhart h*-polynomial of any sufficiently large reflexive stabilization is not unimodal and has only 1 and 2 as coefficients. We use this construction to generate interesting examples of reflexive weighted projective space simplices that are near the boundary of both h*-unimodality and the integer decomposition property.
AB - Reflexive lattice polytopes play a key role in combinatorics, algebraic geometry, physics, and other areas. One important class of lattice polytopes are lattice sim-plices defining weighted projective spaces. We investigate the question of when a reflexive weighted projective space simplex has the integer decomposition prop-erty. We provide a complete classification of reflexive weighted projective space simplices having the integer decomposition property for the case when there are at most three distinct non-unit weights, and conjecture a general classification for an arbitrary number of distinct non-unit weights. Further, for any weighted projective space simplex and m ≥ 1, we define the m-th reflexive stabilization, a reflexive weighted projective space simplex. We prove that when m is 2 or greater, reflexive stabilizations do not have the integer decomposition property. We also prove that as long as one weight is at least three, the Ehrhart h*-polynomial of any sufficiently large reflexive stabilization is not unimodal and has only 1 and 2 as coefficients. We use this construction to generate interesting examples of reflexive weighted projective space simplices that are near the boundary of both h*-unimodality and the integer decomposition property.
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U2 - 10.5281/zenodo.12167579
DO - 10.5281/zenodo.12167579
M3 - Article
AN - SCOPUS:85197386766
SN - 1553-1732
VL - 24
JO - Integers
JF - Integers
M1 - A60
ER -