In this paper we introduce a very simple model exhibiting slow relaxation, typical of glassy systems. We show both numerical and analytically the slow nature of the relaxation process; in particular, we obtain stretched-exponential and power law curves for the energy relaxation depending on the parameter values and/or on the considered approximation in the analytical approach
In this paper we study a simple, purely topological, cellular model which is allowed to evolve throu...
In this paper we review a recent proposal to understand the long time limit of glassy dynamics in te...
We propose a microscopic model without energy barriers in order to explain some generic features obs...
In this paper we introduce a very simple model exhibiting slow relaxation, typical of glassy systems...
We introduce a simple hierarchically constrained model of slow relaxation. The configurational energ...
We will review some of the theoretical progresses that have been recently done in the study of slow ...
The question of whether glass continues to relax at low temperature is of fundamental and practical ...
We have studied, using dynamical Monte Carlo methods, a facilitated kinetic Ising model for structur...
he aim of this work is to explore the consequences on the kinetics of structural relaxation of consi...
We propose an atomistic model for correlated particle dynamics in liquids and glasses predicting bot...
We propose that the onset of a glass transition can be defined as the point at which a supercooled l...
In the present work a comparison among the different functions commonly used to describe the α-relax...
We propose a phenomenological approach to relaxation in disordered systems which is modelled after t...
Glass forming liquids exhibit upon cooling a striking divergence in the magnitude of the characteris...
A self-consistent mode-coupling model for relaxation of density fluctuations in a supercooled liquid...
In this paper we study a simple, purely topological, cellular model which is allowed to evolve throu...
In this paper we review a recent proposal to understand the long time limit of glassy dynamics in te...
We propose a microscopic model without energy barriers in order to explain some generic features obs...
In this paper we introduce a very simple model exhibiting slow relaxation, typical of glassy systems...
We introduce a simple hierarchically constrained model of slow relaxation. The configurational energ...
We will review some of the theoretical progresses that have been recently done in the study of slow ...
The question of whether glass continues to relax at low temperature is of fundamental and practical ...
We have studied, using dynamical Monte Carlo methods, a facilitated kinetic Ising model for structur...
he aim of this work is to explore the consequences on the kinetics of structural relaxation of consi...
We propose an atomistic model for correlated particle dynamics in liquids and glasses predicting bot...
We propose that the onset of a glass transition can be defined as the point at which a supercooled l...
In the present work a comparison among the different functions commonly used to describe the α-relax...
We propose a phenomenological approach to relaxation in disordered systems which is modelled after t...
Glass forming liquids exhibit upon cooling a striking divergence in the magnitude of the characteris...
A self-consistent mode-coupling model for relaxation of density fluctuations in a supercooled liquid...
In this paper we study a simple, purely topological, cellular model which is allowed to evolve throu...
In this paper we review a recent proposal to understand the long time limit of glassy dynamics in te...
We propose a microscopic model without energy barriers in order to explain some generic features obs...
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