Global lower mass-bound for critical configuration models in the heavy-tailed regime

Shankar Bhamidi; Souvik Dhara; Remco van der Hofstad; Sanchayan Sen

doi:10.1214/22-EJP821

Global lower mass-bound for critical configuration models in the heavy-tailed regime

Shankar Bhamidi, Souvik Dhara, Remco van der Hofstad, Sanchayan Sen

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We establish the global lower mass-bound property for the largest connected components in the critical window for the configuration model when the degree distribution has an infinite third moment. The scaling limit of the critical percolation clusters, viewed as measured metric spaces, was established in our prior work with respect to the Gromov-weak topology. Our result extends those scaling limit results to the stronger Gromov-Hausdorff-Prokhorov topology under slightly stronger assumptions on the degree distribution. This implies the distributional convergence of global functionals such as the diameter of the largest critical components. Further, our result gives a sufficient condition for compactness of the random metric spaces that arise as scaling limits of critical clusters in the heavy-tailed regime.

Originele taal-2	Engels
Artikelnummer	103
Aantal pagina's	29
Tijdschrift	Electronic Journal of Probability
Volume	27
DOI's	https://doi.org/10.1214/22-EJP821
Status	Gepubliceerd - 2022

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© 2022, Institute of Mathematical Statistics. All rights reserved.

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*The authors are grateful to two anonymous referees for their careful reading and many comments and suggestions on an earlier version of the paper. SB was partially supported by NSF grants DMS-1613072, DMS-1606839, and ARO grant W911NF-17-1-0010. SD and RvdH were supported by the Netherlands Organisation for Scientific Research (NWO) through Gravitation Networks grant 024.002.003. In addition, RvdH was supported by VICI grant 639.033.806. SD also thanks Elchanan Mossel for supporting his research through Vannevar Bush Faculty Fellowship (ONR-N00014-20-1-2826), Simons Investigator award (622132). SS has been supported in part by the Infosys foundation, Bangalore, and by MATRICS grant MTR/2019/000745 from SERB. SD thanks Eindhoven University of Technology, where a major part of this work was done. †Department of Statistics and Operations Research, University of North Carolina. E-mail: [email protected] ‡Simons Institute for the Theory of Computing, University of California, Berkeley. E-mail: [email protected] §Department of Mathematics and Computer Science, Eindhoven University of Technology. E-mail: [email protected] ¶Department of Mathematics, Indian Institute of Science. E-mail: [email protected]

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abstract = "We establish the global lower mass-bound property for the largest connected components in the critical window for the configuration model when the degree distribution has an infinite third moment. The scaling limit of the critical percolation clusters, viewed as measured metric spaces, was established in our prior work with respect to the Gromov-weak topology. Our result extends those scaling limit results to the stronger Gromov-Hausdorff-Prokhorov topology under slightly stronger assumptions on the degree distribution. This implies the distributional convergence of global functionals such as the diameter of the largest critical components. Further, our result gives a sufficient condition for compactness of the random metric spaces that arise as scaling limits of critical clusters in the heavy-tailed regime.",

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note = "Funding Information: *The authors are grateful to two anonymous referees for their careful reading and many comments and suggestions on an earlier version of the paper. SB was partially supported by NSF grants DMS-1613072, DMS-1606839, and ARO grant W911NF-17-1-0010. SD and RvdH were supported by the Netherlands Organisation for Scientific Research (NWO) through Gravitation Networks grant 024.002.003. In addition, RvdH was supported by VICI grant 639.033.806. SD also thanks Elchanan Mossel for supporting his research through Vannevar Bush Faculty Fellowship (ONR-N00014-20-1-2826), Simons Investigator award (622132). SS has been supported in part by the Infosys foundation, Bangalore, and by MATRICS grant MTR/2019/000745 from SERB. SD thanks Eindhoven University of Technology, where a major part of this work was done. †Department of Statistics and Operations Research, University of North Carolina. E-mail: [email protected] ‡Simons Institute for the Theory of Computing, University of California, Berkeley. E-mail: [email protected] §Department of Mathematics and Computer Science, Eindhoven University of Technology. E-mail: [email protected] ¶Department of Mathematics, Indian Institute of Science. E-mail: [email protected] ",

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Global lower mass-bound for critical configuration models in the heavy-tailed regime

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