Open AccessNonlinear Bubble Dynamics in a Slowly Driven Foam
Author(s) -
A. D. Gopal,
D. J. Durian
Publication year - 1995
Publication title -
physical review letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.688
H-Index - 673
eISSN - 1079-7114
pISSN - 0031-9007
DOI - 10.1103/physrevlett.75.2610
Subject(s) - bubble , uncorrelated , dynamics (music) , nonlinear system , mechanics , shear (geology) , deformation (meteorology) , physics , granular material , classical mechanics , flow (mathematics) , strain rate , shear flow , materials science , meteorology , thermodynamics , composite material , mathematics , statistics , quantum mechanics , acoustics
Sudden topological rearrangement of neighboring bubbles in a foam occur during coarsening, and can also be induced by applied forces. Diffusing-wave spectroscopy measurements are presented of such dynamics before, during, and after an imposed shear strain. The rate of rearrangements is proportional to the strain rate, and the shape of the correlation functions shows that they are spatially and temporally uncorrelated. Macroscopic deformation is thus accomplished by a nonlinear microscopic process reminiscent of dynamics in the propagation of earthquake faults or the flow of granular media.
Accelerating Research
Robert Robinson Avenue,
Oxford Science Park, Oxford
OX4 4GP, United Kingdom
Address
John Eccles HouseRobert Robinson Avenue,
Oxford Science Park, Oxford
OX4 4GP, United Kingdom