The 2017 SNOOK PRIZES in Computational Statistical Mechanics

Wm. G. Hoover; Carol G. Hoover

arXiv:1804.04494·cond-mat.stat-mech·April 13, 2018

The 2017 SNOOK PRIZES in Computational Statistical Mechanics

Wm. G. Hoover, Carol G. Hoover

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TL;DR

This paper discusses recent advances in understanding chaos, thermalization, and Lyapunov instabilities in Hamiltonian models, highlighting prize-winning research contributions in computational statistical mechanics.

Contribution

The paper presents prize-winning research exploring chaos, symmetries, and thermalization in Hamiltonian $\

Findings

01

Insights into chaos in Hamiltonian $\

02

Advances in understanding Lyapunov instabilities in dynamical systems

03

Recognition of novel models in computational statistical mechanics

Abstract

The 2017 Snook Prize has been awarded to Kenichiro Aoki for his exploration of chaos in Hamiltonian $ϕ^{4}$ models. His work addresses symmetries, thermalization, and Lyapunov instabilities in few-particle dynamical systems. A companion paper by Timo Hofmann and Jochen Merker is devoted to the exploration of generalized H\'enon-Heiles models and has been selected for Honorable Mention in the Snook-Prize competition.

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Taxonomy

TopicsCold Atom Physics and Bose-Einstein Condensates · Theoretical and Computational Physics · Quantum chaos and dynamical systems