We report a numerical study, covering a wide range of packing fraction φ and temperature T, for a system of particles interacting via a square well potential supplemented by an additional constraint on the maximum number n(max) of bonded interactions. We show that, when n(max)< 6, the liquid-gas coexistence region shrinks, giving access to regions of low φ where dynamics can be followed down to low T without an intervening phase separation. We characterize these arrested states at low densities (gel states) in terms of structure and dynamical slowing down, pointing out features which are very different from the standard glassy states observed at high φ values.
Model for reversible colloidal gelation
E Zaccarelli;F Sciortino;
2005
Abstract
We report a numerical study, covering a wide range of packing fraction φ and temperature T, for a system of particles interacting via a square well potential supplemented by an additional constraint on the maximum number n(max) of bonded interactions. We show that, when n(max)< 6, the liquid-gas coexistence region shrinks, giving access to regions of low φ where dynamics can be followed down to low T without an intervening phase separation. We characterize these arrested states at low densities (gel states) in terms of structure and dynamical slowing down, pointing out features which are very different from the standard glassy states observed at high φ values.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
