Dynamics of Polydisperse Foam-like Emulsion

ORAL

Abstract

Foam is a complex fluid whose relaxation properties are associated with the continuous diffusion of gas from small to large bubbles driven by differences in Laplace pressures. We study the dynamics of bubble rearrangements by tracking droplets of a clear, buoyantly neutral emulsion that coarsens like a foam. The droplets are imaged in three dimensions using confocal microscopy. Analysis of the images allows us to measure their positions and radii, and track their evolution in time. We find that the droplet size distribution fits a Weibull distribution characteristics of foam systems. Additionally, we observe that droplets undergo continuous evolution interspersed by occasional large rearrangements in par with local relaxation behavior typical of foams.

Authors

  • Harry Hicock

    Dept. of Physics and Astronomy - James Madison University

  • Rahul Kulkarni

    Materials and Structures Laboratory, Tokyo Institute of Technology, Jefferson Lab, 12000 Jefferson Avenue, MS 58, Suite 17, Newport News, VA 23606, VirginiaTech, Department of Physics, University of South Alabama, New York University, University of Tennessee Knoxville, Georgia College, North Georgia College \& State Univ., North Carolina Central University, TUNL, James Madison University, Physics Department, Hollins University; JQI, University of Aarhus, University of Tennessee, UNC at Asheville, The College of New Jersey, CERN, Florida Institute of Technology, Mechanical Engineering Department, University of New Mexico, Department of Physics, Florida State University, JINR, Vanderbilt, Tsinghua University, LBNL, Vanderbilt and LBNL, Vanderbilt University, Vanderbilt University, Tsinghua University, Vanderbilt University, LBNL, NBPHS, Vanderbilt University, Dept. of Physics and Astronomy - James Madison University, National High Magnetic Field Laboratory, U. of South Alabama Dept. of Chemistry, U. of South Alabama Dept. of Physics, Ohio State University, Wright State University, Engineering Science and Mechanics, Virginia Tech, US, Department of Nanobio Materials and Electronics, GIST, Republic of Korea, Department of Physics, Virginia Tech