"Unbiased Diffusion to Escape through Small Windows: Assessing the Applicability of the Reduction to Effective One-Dimension Description in a Spherical Cavity"
written by Marco-Vinicio Vazquez, Leonardo Dagdug,
published by Journal of Modern Physics, Vol.2 No.4, 2011
has been cited by the following article(s):
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[1] Effects of curved midline and varying width on the description of the effective diffusivity of Brownian particles
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[2] Nonscaling calculation of the effective diffusion coefficient in periodic channels
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[3] Integral formula for the effective diffusion coefficient in two-dimensional channels
Physical Review E, 2016
[4] Unbiased Diffusion through a Linear Porous Media with Periodic Entropy Barriers: A Tube Formed by Contacting Ellipses
Journal of Chemistry, 2015
[5] Generalized method calculating the effective diffusion coefficient in periodic channels
The Journal of chemical physics, 2015
[6] Effective diffusion coefficient in 2D periodic channels
The Journal of chemical physics, 2014
[7] Diffusion-influenced reactions in a hollow nano-reactor with a circular hole
arXiv preprint arXiv:1412.1969, 2014
[8] Unbiased Diffusion to Escape Complex Geometries: Is Reduction to Effective One-Dimensional Description Adequate to Assess Narrow Escape Times?
Applied Mathematics, 2014
[9] When is the next extending of Fick-Jacobs equation necessary?
The Journal of chemical physics, 2013
[10] Asymptotic solution of the diffusion equation in slender impermeable tubes of revolution. I. The leading-term approximation
The Journal of chemical physics, 2013
[11] Equilibration in two chambers connected by a capillary of arbitrary shape
channels, 2013
[12] Unbiased diffusion inside a tube of varying cross section as a narrow escape time problem: can the reduction to effective one-dimension technique describe the diffusion to escape trough small windows?
Y Chávez, G Chacón-Acosta, MV Vázquez, L Dagdug - singlefiledynamics.flomenbom.net, 2012
[13] Hindered submicron mobility and long‐term storage of presynaptic dense‐core granules revealed by single‐particle tracking
Developmental neurobiology, 2012