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Autori principali: Li, Botao, Nishikawa, Yoshihiko, Hoellmer, Philipp, Carillo, Louis, Maggs, A. C., Krauth, Werner
Natura: Preprint
Pubblicazione: 2022
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Accesso online:https://arxiv.org/abs/2207.07715
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author Li, Botao
Nishikawa, Yoshihiko
Hoellmer, Philipp
Carillo, Louis
Maggs, A. C.
Krauth, Werner
author_facet Li, Botao
Nishikawa, Yoshihiko
Hoellmer, Philipp
Carillo, Louis
Maggs, A. C.
Krauth, Werner
contents We discuss historic pressure computations for the hard-disk model performed since 1953, and compare them to results that we obtain with a powerful event-chain Monte Carlo and a massively parallel Metropolis algorithm. Like other simple models in the sciences, such as the Drosophila model of biology, the hard-disk model has needed monumental effort to be understood. In particular, we argue that the difficulty of estimating the pressure has not been fully realized in the decades-long controversy over the hard-disk phase-transition scenario. We present the physics of the hard-disk model, the definition of the pressure and its unbiased estimators, several of which are new. We further treat different sampling algorithms and crucial criteria for bounding mixing times in the absence of analytical predictions. Our definite results for the pressure, for up to one million disks, may serve as benchmarks for future sampling algorithms. A synopsis of hard-disk pressure data as well as different versions of the sampling algorithms and pressure estimators are made available in an open-source repository.
format Preprint
id arxiv_https___arxiv_org_abs_2207_07715
institution arXiv
publishDate 2022
record_format arxiv
spellingShingle Hard-disk computer simulations -- a historic perspective
Li, Botao
Nishikawa, Yoshihiko
Hoellmer, Philipp
Carillo, Louis
Maggs, A. C.
Krauth, Werner
Statistical Mechanics
We discuss historic pressure computations for the hard-disk model performed since 1953, and compare them to results that we obtain with a powerful event-chain Monte Carlo and a massively parallel Metropolis algorithm. Like other simple models in the sciences, such as the Drosophila model of biology, the hard-disk model has needed monumental effort to be understood. In particular, we argue that the difficulty of estimating the pressure has not been fully realized in the decades-long controversy over the hard-disk phase-transition scenario. We present the physics of the hard-disk model, the definition of the pressure and its unbiased estimators, several of which are new. We further treat different sampling algorithms and crucial criteria for bounding mixing times in the absence of analytical predictions. Our definite results for the pressure, for up to one million disks, may serve as benchmarks for future sampling algorithms. A synopsis of hard-disk pressure data as well as different versions of the sampling algorithms and pressure estimators are made available in an open-source repository.
title Hard-disk computer simulations -- a historic perspective
topic Statistical Mechanics
url https://arxiv.org/abs/2207.07715