Behavior of the Lattice Gaussian Free Field with Weak Repulsive Potentials

Hironobu Sakagawa

doi:10.1007/s10955-020-02676-z

Behavior of the Lattice Gaussian Free Field with Weak Repulsive Potentials

Hironobu Sakagawa

Department of Mathematics

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

Abstract

We consider the d(≥3) - dimensional lattice Gaussian free field on Λ_N: = [- N, N] ^d∩ Z^d in the presence of a self-potential of the form U(r) = - bI(| r| ≤ a) , a> 0 , b∈ R. When b> 0 , the potential attracts the field to the level around zero and is called square-well pinning. It is known that the field turns to be localized and massive for every a> 0 and b> 0. In this paper, we consider the situation that the parameter b< 0 and self-potentials are imposed on ΛαN,α∈(0,1). We prove that once we impose this weak repulsive potential from the level [- a, a] , most sites are located on the same side and the field is pushed to the same level when the original Gaussian field is conditioned to be positive everywhere, or negative everywhere with probability 12, respectively. This result can be applied to show the similar path behavior for the disordered pinning model in the delocalized regime.

Original language	English
Article number	8
Journal	Journal of Statistical Physics
Volume	182
Issue number	1
DOIs	https://doi.org/10.1007/s10955-020-02676-z
Publication status	Published - 2021 Jan

Keywords

Capacity
Entropic repulsion
Lattice Gaussian free field
Pinning

ASJC Scopus subject areas

Statistical and Nonlinear Physics
Mathematical Physics

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10.1007/s10955-020-02676-z

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title = "Behavior of the Lattice Gaussian Free Field with Weak Repulsive Potentials",

abstract = "We consider the d(≥3) - dimensional lattice Gaussian free field on ΛN: = [- N, N] d∩ Zd in the presence of a self-potential of the form U(r) = - bI(| r| ≤ a) , a> 0 , b∈ R. When b> 0 , the potential attracts the field to the level around zero and is called square-well pinning. It is known that the field turns to be localized and massive for every a> 0 and b> 0. In this paper, we consider the situation that the parameter b< 0 and self-potentials are imposed on ΛαN,α∈(0,1). We prove that once we impose this weak repulsive potential from the level [- a, a] , most sites are located on the same side and the field is pushed to the same level when the original Gaussian field is conditioned to be positive everywhere, or negative everywhere with probability 12, respectively. This result can be applied to show the similar path behavior for the disordered pinning model in the delocalized regime.",

keywords = "Capacity, Entropic repulsion, Lattice Gaussian free field, Pinning",

author = "Hironobu Sakagawa",

note = "Publisher Copyright: {\textcopyright} 2021, The Author(s), under exclusive licence to Springer Science+Business Media, LLC part of Springer Nature.",

year = "2021",

month = jan,

doi = "10.1007/s10955-020-02676-z",

language = "English",

volume = "182",

journal = "Journal of Statistical Physics",

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N2 - We consider the d(≥3) - dimensional lattice Gaussian free field on ΛN: = [- N, N] d∩ Zd in the presence of a self-potential of the form U(r) = - bI(| r| ≤ a) , a> 0 , b∈ R. When b> 0 , the potential attracts the field to the level around zero and is called square-well pinning. It is known that the field turns to be localized and massive for every a> 0 and b> 0. In this paper, we consider the situation that the parameter b< 0 and self-potentials are imposed on ΛαN,α∈(0,1). We prove that once we impose this weak repulsive potential from the level [- a, a] , most sites are located on the same side and the field is pushed to the same level when the original Gaussian field is conditioned to be positive everywhere, or negative everywhere with probability 12, respectively. This result can be applied to show the similar path behavior for the disordered pinning model in the delocalized regime.

AB - We consider the d(≥3) - dimensional lattice Gaussian free field on ΛN: = [- N, N] d∩ Zd in the presence of a self-potential of the form U(r) = - bI(| r| ≤ a) , a> 0 , b∈ R. When b> 0 , the potential attracts the field to the level around zero and is called square-well pinning. It is known that the field turns to be localized and massive for every a> 0 and b> 0. In this paper, we consider the situation that the parameter b< 0 and self-potentials are imposed on ΛαN,α∈(0,1). We prove that once we impose this weak repulsive potential from the level [- a, a] , most sites are located on the same side and the field is pushed to the same level when the original Gaussian field is conditioned to be positive everywhere, or negative everywhere with probability 12, respectively. This result can be applied to show the similar path behavior for the disordered pinning model in the delocalized regime.

KW - Capacity

KW - Entropic repulsion

KW - Lattice Gaussian free field

KW - Pinning

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Behavior of the Lattice Gaussian Free Field with Weak Repulsive Potentials

Abstract

Keywords

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