DYNAMICAL SOLUTION OF A MODEL WITHOUT ENERGY BARRIERS

S. Franz; F. Ritort

arXiv:cond-mat/9505115·cond-mat·October 28, 2009

DYNAMICAL SOLUTION OF A MODEL WITHOUT ENERGY BARRIERS

S. Franz, F. Ritort

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TL;DR

This paper investigates a model exhibiting glassy dynamics without energy barriers, deriving an evolution equation that accurately predicts observed behaviors in simulations.

Contribution

It introduces a new analytical approach to describe glassy phenomena in barrierless models, validated by simulation results.

Findings

01

Derived an equation for energy evolution over time.

02

Successfully explained glassy behavior without energy barriers.

03

Validated model predictions with Monte Carlo simulations.

Abstract

In this note we study the dynamics of a model recently introduced by one of us, that displays glassy phenomena in absence of energy barriers. Using an adiabatic hypothesis we derive an equation for the evolution of the energy as a function of time that describes extremely well the glassy behaviour observed in Monte Carlo simulations.

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