### Session L8: Jamming at Nonzero Temperature and Stress

2:30 PM–5:30 PM, Tuesday, March 17, 2009
Room: 414/415

Chair: Vincenzo Vitelli, University of Pennsylvania

Abstract ID: BAPS.2009.MAR.L8.1

### Abstract: L8.00001 : Simple scaling of the glass transition temperature with pressure

2:30 PM–3:06 PM

Preview Abstract MathJax On | Off Abstract

#### Author:

Ning Xu
(University of Pennsylvania and University of Chicago)

Zero-temperature packings of frictionless spheres have been used as a starting point for understanding granular materials, foams, colloids and even glass-forming liquids. Such packings exhibit a jamming transition, known as Point J, with increasing packing fraction. This symposium presents recent work that explores the implications of Point J for systems at nonzero temperature, shear stress, or friction. In this talk, I present results that push beyond zero temperature to explore the connection between Point J and the glass transition. We performed molecular dynamics simulations of several three-dimensional models of glass-forming liquids, and measured the relaxation time from the intermediate scattering function along several trajectories to the glass transition, such as lowering temperature at fixed packing fraction, or raising pressure at fixed temperature. Along each trajectory, we extrapolated the relaxation time using the form $\tau={\rm exp}(A/(T-T_0)^{\alpha})$ or $\tau={\rm exp}(A/(p^r-p^r_0)^{\alpha})$, depending on whether temperature or pressure was varied, where $p^r$ is the contribution to the pressure from repulsive forces, only. Here, $A$, $\alpha$, $T_0$ and $p^r_0$ are fit parameters. We find that $T_0$ is linear in the repulsive contribution to the pressure, $p^r$: $T_0=vp^r$. The fit parameter $v$ is approximately $0.035v_0=(0.37\sigma)^3$, independent of potential, where $v_0$ is the average volume per particle and $\sigma$ is the diameter of the particle. This linear scaling of $T_0$ with $p^r$ holds very well at low $p^r$, which corresponds to the vicinity of Point J in purely repulsive systems where jamming transition at T=0 exists. This suggests that Point J marks the onset of a nonzero value of the glass transition temperature, $T_0$. Experimental data for glycerol (K. Z. Win and N. Menon, Phys. Rev. E 73, 040501 (2006)) also show that $T_0$ is linear in pressure, with a prefactor of 0.04$\times$ the molecular volume.

To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2009.MAR.L8.1