Schmiedeberg M, Roth J, Stark H (2007)
Publication Status: Published
Publication Type: Journal article
Publication year: 2007
Publisher: SPRINGER
Book Volume: 24
Pages Range: 367-377
Journal Issue: 4
DOI: 10.1140/epje/i2007-10247-7
We study the Brownian motion of an ensemble of single colloidal particles in a random square and a quasicrystalline potential when they start from non-equlibrium. For both potentials, Brownian dynamics simulations reveal a widespread subdiffusive regime before the diffusive long-time limit is reached in thermal equilibrium. We develop a random trap model based on a distribution for the depths of trapping sites that reproduces the results of the simulations in detail. Especially, it gives analytic formulas for the long-time diffusion constant and the relaxation time into the diffusive regime. Aside from detailed differences, our work demonstrates that quasicrystalline potentials can be used to mimic aspects of random potentials.
APA:
Schmiedeberg, M., Roth, J., & Stark, H. (2007). Brownian particles in random and quasicrystalline potentials: How they approach the equilibrium. European Physical Journal E, 24(4), 367-377. https://doi.org/10.1140/epje/i2007-10247-7
MLA:
Schmiedeberg, Michael, Johannes Roth, and Holger Stark. "Brownian particles in random and quasicrystalline potentials: How they approach the equilibrium." European Physical Journal E 24.4 (2007): 367-377.
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