Spectral gap for the growth-fragmentation equation via harris's theorem

Jose A. Canizo; Pierre Gabriel; Havva Yoldas

doi:10.1137/20M1338654

Spectral gap for the growth-fragmentation equation via harris's theorem

Jose A. Canizo^*, Pierre Gabriel, Havva Yoldas

^*Corresponding author for this work

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

8 Citations (Scopus)

Abstract

We study the long-time behavior of the growth-fragmentation equation, a nonlocal linear evolution equation describing a wide range of phenomena in structured population dynamics. We show the existence of a spectral gap under conditions that generalize those in the literature by using a method based on Harris's theorem, a result coming from the study of equilibration of Markov processes. The difficulty posed by the nonconservativeness of the equation is overcome by performing an h-transform, after solving the dual Perron eigenvalue problem. The existence of the direct Perron eigenvector is then a consequence of our methods, which prove exponential contraction of the evolution equation. Moreover the rate of convergence is explicitly quantifiable in terms of the dual eigenfunction and the coefficients of the equation.

Original language	English
Pages (from-to)	5185-5214
Number of pages	30
Journal	SIAM Journal on Mathematical Analysis
Volume	53
Issue number	5
DOIs	https://doi.org/10.1137/20M1338654
Publication status	Published - 2021
Externally published	Yes

Keywords

Growth-fragmentation equations
Harris's theorem
Long-time behavior of solutions
Spectral gap
Structured population dynamics

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10.1137/20M1338654

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title = "Spectral gap for the growth-fragmentation equation via harris's theorem",

abstract = "We study the long-time behavior of the growth-fragmentation equation, a nonlocal linear evolution equation describing a wide range of phenomena in structured population dynamics. We show the existence of a spectral gap under conditions that generalize those in the literature by using a method based on Harris's theorem, a result coming from the study of equilibration of Markov processes. The difficulty posed by the nonconservativeness of the equation is overcome by performing an h-transform, after solving the dual Perron eigenvalue problem. The existence of the direct Perron eigenvector is then a consequence of our methods, which prove exponential contraction of the evolution equation. Moreover the rate of convergence is explicitly quantifiable in terms of the dual eigenfunction and the coefficients of the equation.",

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author = "Canizo, {Jose A.} and Pierre Gabriel and Havva Yoldas",

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T1 - Spectral gap for the growth-fragmentation equation via harris's theorem

AU - Canizo, Jose A.

AU - Gabriel, Pierre

AU - Yoldas, Havva

PY - 2021

Y1 - 2021

N2 - We study the long-time behavior of the growth-fragmentation equation, a nonlocal linear evolution equation describing a wide range of phenomena in structured population dynamics. We show the existence of a spectral gap under conditions that generalize those in the literature by using a method based on Harris's theorem, a result coming from the study of equilibration of Markov processes. The difficulty posed by the nonconservativeness of the equation is overcome by performing an h-transform, after solving the dual Perron eigenvalue problem. The existence of the direct Perron eigenvector is then a consequence of our methods, which prove exponential contraction of the evolution equation. Moreover the rate of convergence is explicitly quantifiable in terms of the dual eigenfunction and the coefficients of the equation.

AB - We study the long-time behavior of the growth-fragmentation equation, a nonlocal linear evolution equation describing a wide range of phenomena in structured population dynamics. We show the existence of a spectral gap under conditions that generalize those in the literature by using a method based on Harris's theorem, a result coming from the study of equilibration of Markov processes. The difficulty posed by the nonconservativeness of the equation is overcome by performing an h-transform, after solving the dual Perron eigenvalue problem. The existence of the direct Perron eigenvector is then a consequence of our methods, which prove exponential contraction of the evolution equation. Moreover the rate of convergence is explicitly quantifiable in terms of the dual eigenfunction and the coefficients of the equation.

KW - Growth-fragmentation equations

KW - Harris's theorem

KW - Long-time behavior of solutions

KW - Spectral gap

KW - Structured population dynamics

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EP - 5214

JO - SIAM Journal on Mathematical Analysis

JF - SIAM Journal on Mathematical Analysis

IS - 5

ER -

Spectral gap for the growth-fragmentation equation via harris's theorem

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