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Updated: May 14, 2026

An Analog Macroscopic Technique for Studying Molecular Hydrodynamic Processes in Dense Gases and Liquids
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An Analog Macroscopic Technique for Studying Molecular Hydrodynamic Processes in Dense Gases and Liquids

Published on: December 4, 2017

Equilibrating temperaturelike variables in jammed granular subsystems.

James G Puckett1, Karen E Daniels

  • 1Department of Physics, North Carolina State University, Raleigh, North Carolina 27695, USA.

Physical Review Letters
|February 19, 2013
PubMed
Summary
This summary is machine-generated.

Researchers studied jammed granular systems, finding that while compactivity doesn't equilibrate, angoricity (related to stress) does. This provides insights into thermodynamic-like descriptions of these athermal systems.

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Area of Science:

  • Physics
  • Soft Matter Physics
  • Granular Materials

Background:

  • Jammed granular systems are athermal but exhibit thermodynamic-like properties.
  • Existing models propose temperature-like variables for volume and stress distributions.

Purpose of the Study:

  • To experimentally investigate the equilibration of thermodynamic-like quantities in jammed granular systems.
  • To compare the behavior of compactivity and angoricity under varying conditions.

Main Methods:

  • Utilized a custom apparatus to generate numerous independent, 2D jammed configurations of photoelastic disks.
  • Created subsystems with differing interparticle friction coefficients within a larger bath.
  • Employed photoelasticity to measure particle positions and interparticle contact forces.

Main Results:

  • Compactivity (conjugate to volume) did not equilibrate between the subsystem and the bath.
  • Angoricity (conjugate to stress) did equilibrate between the two systems.
  • Both components of angoricity showed a linear dependence on hydrostatic pressure.

Conclusions:

  • Angoricity, not compactivity, equilibrates in these jammed granular systems.
  • Experimental results align with predictions from the stress ensemble model.
  • Demonstrates the utility of photoelasticity for probing granular system mechanics.