Softness Correlations Across Length Scales

Robert Ivancic; Amit Shavit; Jennifer Rieser; Samuel Schoenholz; Ekin Cubuk; Douglas Durian; Andrea J. Liu; Robert Riggleman

Softness Correlations Across Length Scales

ORAL

Abstract

In disordered systems, it is believed that mechanical failure begins with localized particle rearrangements. Recently, a machine learning method has been introduced to identify how likely a particle is to rearrange given its local structural environment, quantified by \textit{softness}. We calculate the softness of particles in simulations of atomic Lennard-Jones mixtures, molecular Lennard-Jones oligomers, colloidal systems and granular systems. In each case, we find that the length scale characterizing spatial correlations of softness is approximately a particle diameter. These results provide a rationale for why localized rearrangements---whose size is presumably set by the scale of softness correlations---might occur in disordered systems across many length scales.

^*supported by DOE DE-FG02-05ER46199

March 17, 2016, 11:39 AM – March 17, 2016, 11:51 AM

Authors

Robert Ivancic
- University Of Pennsylvania
Amit Shavit
- Thomson Reuters
Jennifer Rieser
- University Of Pennsylvania
Samuel Schoenholz
- University Of Pennsylvania
Ekin Cubuk
- Harvard
Douglas Durian
- University of Pennsylvania
- University Of Pennsylvania
- Univ of Pennsylvania
Andrea J. Liu
- University Of Pennsylvania
- University of Pennsylvania, Department of Physics and Astronomy
- University of Pennsylvania
- Dept. of Physcs and Astronomy, University of Pennsylvania
Robert Riggleman
- University of Pennsylvania
- University Of Pennsylvania
- Univ of Pennsylvania