On Betti numbers of flag complexes with forbidden induced subgraphs

Karim Adiprasito; Eran Nevo; Martin Tancer

doi:10.1017/S030500411900001X

On Betti numbers of flag complexes with forbidden induced subgraphs

Karim Adiprasito, Eran Nevo, Martin Tancer

Einstein Institute of Mathematics

The Hebrew University of Jerusalem

Research output: Contribution to journal › Article › peer-review

Abstract

We analyse the asymptotic extremal growth rate of the Betti numbers of clique complexes of graphs on n vertices not containing a fixed forbidden induced subgraph H. In particular, we prove a theorem of the alternative: for any H the growth rate achieves exactly one of five possible exponentials, that is, independent of the field of coefficients, the nth root of the maximal total Betti number over n-vertex graphs with no induced copy of H has a limit, as n tends to infinity, and, ranging over all H, exactly five different limits are attained. For the interesting case where H is the 4-cycle, the above limit is 1, and we prove a superpolynomial upper bound.

Original language	English
Pages (from-to)	567-600
Number of pages	34
Journal	Mathematical Proceedings of the Cambridge Philosophical Society
Volume	168
Issue number	3
DOIs	https://doi.org/10.1017/S030500411900001X
State	Published - 1 Jan 2020

Keywords

2010 Mathematics Subject Classification: 05C35 05E45 57M15

All Science Journal Classification (ASJC) codes

General Mathematics

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10.1017/S030500411900001X

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title = "On Betti numbers of flag complexes with forbidden induced subgraphs",

abstract = "We analyse the asymptotic extremal growth rate of the Betti numbers of clique complexes of graphs on n vertices not containing a fixed forbidden induced subgraph H. In particular, we prove a theorem of the alternative: for any H the growth rate achieves exactly one of five possible exponentials, that is, independent of the field of coefficients, the nth root of the maximal total Betti number over n-vertex graphs with no induced copy of H has a limit, as n tends to infinity, and, ranging over all H, exactly five different limits are attained. For the interesting case where H is the 4-cycle, the above limit is 1, and we prove a superpolynomial upper bound.",

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T1 - On Betti numbers of flag complexes with forbidden induced subgraphs

AU - Adiprasito, Karim

AU - Nevo, Eran

AU - Tancer, Martin

PY - 2020/1/1

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N2 - We analyse the asymptotic extremal growth rate of the Betti numbers of clique complexes of graphs on n vertices not containing a fixed forbidden induced subgraph H. In particular, we prove a theorem of the alternative: for any H the growth rate achieves exactly one of five possible exponentials, that is, independent of the field of coefficients, the nth root of the maximal total Betti number over n-vertex graphs with no induced copy of H has a limit, as n tends to infinity, and, ranging over all H, exactly five different limits are attained. For the interesting case where H is the 4-cycle, the above limit is 1, and we prove a superpolynomial upper bound.

AB - We analyse the asymptotic extremal growth rate of the Betti numbers of clique complexes of graphs on n vertices not containing a fixed forbidden induced subgraph H. In particular, we prove a theorem of the alternative: for any H the growth rate achieves exactly one of five possible exponentials, that is, independent of the field of coefficients, the nth root of the maximal total Betti number over n-vertex graphs with no induced copy of H has a limit, as n tends to infinity, and, ranging over all H, exactly five different limits are attained. For the interesting case where H is the 4-cycle, the above limit is 1, and we prove a superpolynomial upper bound.

KW - 2010 Mathematics Subject Classification: 05C35 05E45 57M15

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U2 - 10.1017/S030500411900001X

DO - 10.1017/S030500411900001X

M3 - مقالة

SN - 0305-0041

VL - 168

SP - 567

EP - 600

JO - Mathematical Proceedings of the Cambridge Philosophical Society

JF - Mathematical Proceedings of the Cambridge Philosophical Society

IS - 3

ER -

On Betti numbers of flag complexes with forbidden induced subgraphs

Abstract

Keywords

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