We present a numerical simulation study of a simple monatomic LennardJones liquid under shear flow, as a function of both temperature T and shear rate ˙γ. By investigating different observables we find that i) It exists a line, Tγ˙ , in the (T- ˙γ) plane that sharply marks the boarder between an “equilibrium” and a “shear-controlled” region for both the dynamic and the thermodynamic quantities; and ii) Along this line the structural relaxation time, τα(Tγ˙), is proportional to ˙γ −1 , i. e. to the typical time-scale introduced by the shear flow. Above Tγ˙ the liquid dynamics is unaffected by the shear flow, while below Tγ˙ both T and ˙γ control the particle motion.
Crossover between equilibrium and shear-controlled dynamics in sheared liquids / Angelani, L.; Ruocco, Giancarlo; Sciortino, F.; Tartaglia, Piero; Zamponi, F.. - In: PHYSICAL REVIEW E, STATISTICAL, NONLINEAR, AND SOFT MATTER PHYSICS. - ISSN 1539-3755. - 66:(2002), p. 061505. [10.1103/PhysRevE.66.061505]
Crossover between equilibrium and shear-controlled dynamics in sheared liquids
RUOCCO, Giancarlo;F. SCIORTINO;TARTAGLIA, Piero;F. ZAMPONI
2002
Abstract
We present a numerical simulation study of a simple monatomic LennardJones liquid under shear flow, as a function of both temperature T and shear rate ˙γ. By investigating different observables we find that i) It exists a line, Tγ˙ , in the (T- ˙γ) plane that sharply marks the boarder between an “equilibrium” and a “shear-controlled” region for both the dynamic and the thermodynamic quantities; and ii) Along this line the structural relaxation time, τα(Tγ˙), is proportional to ˙γ −1 , i. e. to the typical time-scale introduced by the shear flow. Above Tγ˙ the liquid dynamics is unaffected by the shear flow, while below Tγ˙ both T and ˙γ control the particle motion.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
