We study the diffusion of finite-size particles confined close to a single wall and in double-wall planar channel geometries. The local diffusion constants are modified near the confining boundaries and depend on the distance to the latter. Displacement parallel to the walls is diffusive as characterized by its second cumulant (the variance), but a non-Gaussian nature can be demonstrated by the fact that its fourth cumulant is non-zero. Establishing a link with the well-known problem of Taylor dispersion, we provide a general expression for the fourth cumulant for general diffusivity tensors and also in the presence of potentials generated by either the walls or externally, for instance due to gravity. We then analyse experimentally and ...
Cells are neither flat nor smooth, which has serious implications for prevailing plasma membrane mod...
A topic of intense current investigation pursues the question of how the highly crowded environment ...
Motivated by experimental observations, we look for the diffusion of Brownian particles in a medium ...
We study the diffusion of finite-size particles confined close to a single wall and in double-wall p...
The aim of this thesis is to study the dispersion, i.e. the spreading rate of tracer particles, in h...
Motivated by experimental evidence of violations of the no-slip boundary condition for liquid flow i...
We study some geometric aspects that influence the transport properties of particles that diffuse on...
In the last years, a few experiments in the fields of biological and soft matter physics in colloida...
This paper focuses on the derivation of a general position-dependent diffusion coefficient to descri...
The paradigmatic model for heterogeneous media used in diffusion studies is built from reflecting ob...
Many experiments are now available where it has been shown that the probability distribution functio...
Brownian motion of nanoscale analytes near interfaces is a crucial requirement for the development o...
Confined diffusion is ubiquitous in nature. Ever since the “anomalous yet Brownian” motion was obser...
Diffusive motion of particles plays an important role in many phenomena in surface physics, for exam...
It has been found in many experiments that the mean square displacement of a Brownian particle x(T) ...
Cells are neither flat nor smooth, which has serious implications for prevailing plasma membrane mod...
A topic of intense current investigation pursues the question of how the highly crowded environment ...
Motivated by experimental observations, we look for the diffusion of Brownian particles in a medium ...
We study the diffusion of finite-size particles confined close to a single wall and in double-wall p...
The aim of this thesis is to study the dispersion, i.e. the spreading rate of tracer particles, in h...
Motivated by experimental evidence of violations of the no-slip boundary condition for liquid flow i...
We study some geometric aspects that influence the transport properties of particles that diffuse on...
In the last years, a few experiments in the fields of biological and soft matter physics in colloida...
This paper focuses on the derivation of a general position-dependent diffusion coefficient to descri...
The paradigmatic model for heterogeneous media used in diffusion studies is built from reflecting ob...
Many experiments are now available where it has been shown that the probability distribution functio...
Brownian motion of nanoscale analytes near interfaces is a crucial requirement for the development o...
Confined diffusion is ubiquitous in nature. Ever since the “anomalous yet Brownian” motion was obser...
Diffusive motion of particles plays an important role in many phenomena in surface physics, for exam...
It has been found in many experiments that the mean square displacement of a Brownian particle x(T) ...
Cells are neither flat nor smooth, which has serious implications for prevailing plasma membrane mod...
A topic of intense current investigation pursues the question of how the highly crowded environment ...
Motivated by experimental observations, we look for the diffusion of Brownian particles in a medium ...