Spectral analysis of the zigzag process

Joris Bierkens; Sjoerd M. Verduyn Lunel

doi:10.1214/21-AIHP1188

Spectral analysis of the zigzag process

Joris Bierkens, Sjoerd M. Verduyn Lunel

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Abstract

The zigzag process is a variant of the telegraph process with position dependent switching intensities. A characterization of the L2-spectrum for the generator of the one-dimensional zigzag process is obtained in the case where the marginal stationary distribution on R is unimodal and the refreshment intensity is zero. Sufficient conditions are obtained for a spectral mapping theorem, mapping the spectrum of the generator to the spectrum of the corresponding Markov semigroup. Furthermore results are obtained for symmetric stationary distributions and for perturbations of the spectrum, in particular for the case of a non-zero refreshment intensity. In the examples we consider (including a Gaussian target distribution) a slight increase of the refreshment intensity above zero results in a larger L2-spectral gap, corresponding to an improved convergence in L2.

Original language	English
Pages (from-to)	827-860
Number of pages	34
Journal	Annales de l'institut Henri Poincare (B) Probability and Statistics
Volume	58
Issue number	2
DOIs	https://doi.org/10.1214/21-AIHP1188
Publication status	Published - 2022

Keywords

Exponential ergodicity
Markov semigroup
Non-reversible Markov process
Perturbation theory
Piecewise deterministic Markov process
Spectral theory
Telegraph process
Zigzag process

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abstract = "The zigzag process is a variant of the telegraph process with position dependent switching intensities. A characterization of the L2-spectrum for the generator of the one-dimensional zigzag process is obtained in the case where the marginal stationary distribution on R is unimodal and the refreshment intensity is zero. Sufficient conditions are obtained for a spectral mapping theorem, mapping the spectrum of the generator to the spectrum of the corresponding Markov semigroup. Furthermore results are obtained for symmetric stationary distributions and for perturbations of the spectrum, in particular for the case of a non-zero refreshment intensity. In the examples we consider (including a Gaussian target distribution) a slight increase of the refreshment intensity above zero results in a larger L2-spectral gap, corresponding to an improved convergence in L2.",

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AU - Verduyn Lunel, Sjoerd M.

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KW - Exponential ergodicity

KW - Markov semigroup

KW - Non-reversible Markov process

KW - Perturbation theory

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Spectral analysis of the zigzag process

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