Brownian motion of an asymmetrical particle in a potential field

R. Grima, S. N. Yaliraki*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

It is well known that a free ellipsoidal Brownian particle exhibits anisotropic diffusion for short times which changes to isotropic at long times, and, that the long-time diffusion coefficient is an average of the translational diffusion coefficients along the different semiaxes of the particle. We show analytically that in the presence of external forces, the long-time diffusion coefficient is different from that of a free particle. The magnitude of the difference in the two diffusion coefficients is found to increase proportionately with the particle's asymmetry, being zero only for a perfectly spherical Brownian particle. It is also found that, for asymmetrical particles, the application of external forces can amplify the non-Gaussian character of the spatial probability distributions which consequently delays the transition to the classical behavior. We illustrate these phenomena by considering the quasi-two-dimensional Brownian motion of an ellipsoidal rigid particle in linear and harmonic potential fields. These two examples provide insight into the role played by particle asymmetry in electrophoresis and microconfinement due to a laser trap or due to intracellular macromolecular crowding. (c) 2007 American Institute of Physics.

Original languageEnglish
Article number084511
Number of pages12
JournalThe Journal of Chemical Physics
Volume127
Issue number8
DOIs
Publication statusPublished - 28 Aug 2007

Keywords

  • ELLIPSOIDAL MOLECULES
  • DYNAMICS SIMULATION
  • DIFFUSION
  • ELECTROPHORESIS
  • MOVEMENT
  • KINETICS
  • SPHERES
  • MOTORS
  • SEA

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