Diffusions from infinity

Vincent Bansaye; Pierre Collet; Servet Martinez; Sylvie Méléard; Jaime San Martin

doi:10.1090/tran/7841

Diffusions from infinity

Vincent Bansaye
, Pierre Collet
, Servet Martinez
, Sylvie Méléard
, Jaime San Martin

CNRS
University of Chile

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

Abstract

In this paper we consider diffusions on the half line (0, ∞) such that the expectation of the arrival time at the origin is uniformly bounded in the initial point. This implies that there is a well defined diffusion process starting from infinity which takes finite values at positive times. We study the behavior of hitting times of large barriers and, in a dual way, the behavior of the process starting at infinity for small time. In particular, we prove that the process coming down from infinity is in small time governed by a specific deterministic function. Suitably normalized fluctuations of the hitting times are asymptotically Gaussian. We also derive the tail of the distribution of the hitting time of the origin and a Yaglom limit for the diffusion starting from infinity. We finally prove that the distribution of this process killed at the origin is absolutely continuous with respect to the speed measure. The density is expressed in terms of the eigenvalues and eigenfunctions of the generator of the killed diffusion.

Original language	English
Pages (from-to)	5781-5823
Number of pages	43
Journal	Transactions of the American Mathematical Society
Volume	372
Issue number	8
DOIs	https://doi.org/10.1090/tran/7841
Publication status	Published - 15 Oct 2019

Keywords

Central limit theorem
Descent from infinity
Diffusion
Eigenfunctions
Entrance boundary
Hitting times
Quasi-stationary distributions

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10.1090/tran/7841

Cite this

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title = "Diffusions from infinity",

abstract = "In this paper we consider diffusions on the half line (0, ∞) such that the expectation of the arrival time at the origin is uniformly bounded in the initial point. This implies that there is a well defined diffusion process starting from infinity which takes finite values at positive times. We study the behavior of hitting times of large barriers and, in a dual way, the behavior of the process starting at infinity for small time. In particular, we prove that the process coming down from infinity is in small time governed by a specific deterministic function. Suitably normalized fluctuations of the hitting times are asymptotically Gaussian. We also derive the tail of the distribution of the hitting time of the origin and a Yaglom limit for the diffusion starting from infinity. We finally prove that the distribution of this process killed at the origin is absolutely continuous with respect to the speed measure. The density is expressed in terms of the eigenvalues and eigenfunctions of the generator of the killed diffusion.",

keywords = "Central limit theorem, Descent from infinity, Diffusion, Eigenfunctions, Entrance boundary, Hitting times, Quasi-stationary distributions",

author = "Vincent Bansaye and Pierre Collet and Servet Martinez and Sylvie M{\'e}l{\'e}ard and Martin, \{Jaime San\}",

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doi = "10.1090/tran/7841",

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TY - JOUR

T1 - Diffusions from infinity

AU - Bansaye, Vincent

AU - Collet, Pierre

AU - Martinez, Servet

AU - Méléard, Sylvie

AU - Martin, Jaime San

PY - 2019/10/15

Y1 - 2019/10/15

N2 - In this paper we consider diffusions on the half line (0, ∞) such that the expectation of the arrival time at the origin is uniformly bounded in the initial point. This implies that there is a well defined diffusion process starting from infinity which takes finite values at positive times. We study the behavior of hitting times of large barriers and, in a dual way, the behavior of the process starting at infinity for small time. In particular, we prove that the process coming down from infinity is in small time governed by a specific deterministic function. Suitably normalized fluctuations of the hitting times are asymptotically Gaussian. We also derive the tail of the distribution of the hitting time of the origin and a Yaglom limit for the diffusion starting from infinity. We finally prove that the distribution of this process killed at the origin is absolutely continuous with respect to the speed measure. The density is expressed in terms of the eigenvalues and eigenfunctions of the generator of the killed diffusion.

AB - In this paper we consider diffusions on the half line (0, ∞) such that the expectation of the arrival time at the origin is uniformly bounded in the initial point. This implies that there is a well defined diffusion process starting from infinity which takes finite values at positive times. We study the behavior of hitting times of large barriers and, in a dual way, the behavior of the process starting at infinity for small time. In particular, we prove that the process coming down from infinity is in small time governed by a specific deterministic function. Suitably normalized fluctuations of the hitting times are asymptotically Gaussian. We also derive the tail of the distribution of the hitting time of the origin and a Yaglom limit for the diffusion starting from infinity. We finally prove that the distribution of this process killed at the origin is absolutely continuous with respect to the speed measure. The density is expressed in terms of the eigenvalues and eigenfunctions of the generator of the killed diffusion.

KW - Central limit theorem

KW - Descent from infinity

KW - Diffusion

KW - Eigenfunctions

KW - Entrance boundary

KW - Hitting times

KW - Quasi-stationary distributions

UR - https://www.scopus.com/pages/publications/85075116893

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DO - 10.1090/tran/7841

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SN - 0002-9947

VL - 372

SP - 5781

EP - 5823

JO - Transactions of the American Mathematical Society

JF - Transactions of the American Mathematical Society

IS - 8

ER -

Diffusions from infinity

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Keywords

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