Jamming percolation and glassy dynamicsReportar como inadecuado

 Jamming percolation and glassy dynamics

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We present a detailed physical analysis of the dynamical glass-jamming transition which occurs for the so called Knight models recently introduced and analyzed in a joint work with D.S.Fisher \cite{letterTBF}. Furthermore, we review some of our previous works on Kinetically Constrained Models. The Knights models correspond to a new class of kinetically constrained models which provide the first example of finite dimensional models with an ideal glass-jamming transition. This is due to the underlying percolation transition of particles which are mutually blocked by the constraints. This jamming percolation has unconventional features: it is discontinuous i.e. the percolating cluster is compact at the transition and the typical size of the clusters diverges faster than any power law when $ ho earrow ho c$. These properties give rise for Knight models to an ergodicity breaking transition at $ ho c$: at and above $ ho {c}$ a finite fraction of the system is frozen. In turn, this finite jump in the density of frozen sites leads to a two step relaxation for dynamic correlations in the unjammed phase, analogous to that of glass forming liquids. Also, due to the faster than power law divergence of the dynamical correlation length, relaxation times diverge in a way similar to the Vogel-Fulcher law.

Autor: Cristina Toninelli; Giulio Biroli

Fuente: https://archive.org/

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