The Posterior metric and the Goodness of Gibbsianness for transforms of Gibbs measures

We consider planar rotors ͑XY spins͒ in Z d , starting from an initial Gibbs measure and evolving with infinite-temperature stochastic ͑diffusive͒ dynamics. At intermediate times, if the system starts at low temperature, Gibbsianness can be lost. Due to the influence of the external initial field, Gibbsianness can be recovered after large finite times. We prove some results supporting this picture.

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“…Similar short-time results for more general compact spins can be found in Ref. 14 This paper is a continuation of Ref. 9.…”

Section: Introductionsupporting

confidence: 85%

Loss and recovery of Gibbsianness for XY models in external fields

Enter

Ruszel

2008

Journal of Mathematical Physics

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“…This is in nice analogy to the corresponding lattice results obtained in the paper in Ref. 24 using techniques based on the Dobrushin uniqueness. More can be said, however, about the transformed system and can be put in perspective with the corresponding lattice results.…”

supporting

confidence: 87%

“…As discussed in Ref. 24 we begin with a first-layer mean-field system, described by some given mean-field interaction ⌽ and the a priori measure ␣ with S as its single-site space. This system is coupled to a second system ͑second-layer system with SЈ as its single-site spin space͒ via K. In other words, we begin with two independent systems, namely, the first-layer system, described by ⌽ and ␣, and the second-layer system which is independent and identically distributed with distribution ␣Ј.…”

Section: Two-layer System and Gibbsianness Of Transformed Systemsmentioning

confidence: 99%

“…The study, as in Ref. 24 and the above, is based on investigating the continuity properties of the single-site conditional distribution ␥ 1 Ј for the transformed system. This consists in studying the infinite-volume N-limits of the following finite-volume quantity N Ј ͑d 1 ͉ V N−1 ͒, where the finite-volume transformed mean-field measures N Ј are second marginals of the joint measures N , i.e.,…”

Section: A Transforms Of Gibbsian Mean-field Modelsmentioning

confidence: 99%

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Continuous spin mean-field models: Limiting kernels and Gibbs properties of local transforms

Kuelske

Opoku

2008

Journal of Mathematical Physics

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We extend the notion of Gibbsianness for mean-field systems to the set-up of general (possibly continuous) local state spaces. We investigate the Gibbs properties of systems arising from an initial mean-field Gibbs measure by application of given local transition kernels. This generalizes previous case-studies made for spins taking finitely many values to the first step in direction to a general theory, containing the following parts: (1) A formula for the limiting conditional probability distributions of the transformed system. It holds both in the Gibbs and non-Gibbs regime and invokes a minimization problem for a "constrained rate-function". (2) A criterion for Gibbsianness of the transformed system for initial Lipschitz-Hamiltonians involving concentration properties of the transition kernels. (3) A continuity estimate for the single-site conditional distributions of the transformed system. While (2) and (3) have provable lattice-counterparts, the characterization of (1) is stronger in mean-field. As applications we show short-time Gibbsianness of rotator meanfield models on the (q − 1)-dimensional sphere under diffusive time-evolution and the preservation of Gibbsianness under local coarse-graining of the initial local spin space.

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“…This specific choice is for the sake of explicit analytic computability but many results are true for a general class of rate functions that have a similar graph with two zeros located at −a, a and a maximum at zero. More formally, we require that the sequence of initial probability measures {μ n , n ∈ N} satisfies the large deviation principle with rate function i given by (8). Such rate functions arise naturally in the context of mean-field models with continuous spins and spinHamiltonian depending on the magnetization.…”

Section: Brownian Motionmentioning

confidence: 99%

Gibbs-Non-Gibbs Transitions via Large Deviations: Computable Examples

Redig

Wang

2012

J Stat Phys

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We give new and explicitly computable examples of Gibbs-non-Gibbs transitions of mean-field type, using the large deviation approach introduced in (van Enter et al. in Mosc. Math. J. 10:687-711, 2010). These examples include Brownian motion with small variance and related diffusion processes, such as the Ornstein-Uhlenbeck process, as well as birth and death processes. We show for a large class of initial measures and diffusive dynamics both short-time conservation of Gibbsianness and dynamical Gibbs-non-Gibbs transitions.

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The Posterior metric and the Goodness of Gibbsianness for transforms of Gibbs measures

Cited by 26 publications

References 22 publications

Loss and recovery of Gibbsianness for XY models in external fields

Loss and recovery of Gibbsianness for XY models in external fields

Continuous spin mean-field models: Limiting kernels and Gibbs properties of local transforms

Gibbs-Non-Gibbs Transitions via Large Deviations: Computable Examples

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