Experimental studies on the irreversible growth of field-induced chains of dipolar particles suggest an asymptotic power-law behavior of several relevant quantities. We introduce a Monte Carlo model of chain growth that explicitly incorporates the anisotropic diffusion characteristic of a rod-like object. Assuming a simple power-law form for the mean cluster size, $S(t) \sim t^z$, the results of our model are in good agreement with the experimental measurements of the dynamic exponent $z$. Nevertheless, an alternative scenario, including logarithmic corrections to the standard power-law behavior, provides a better and more insightful interpretation of the anomalous dynamic exponent. In contrast to some experimental findings, we do not obser...
We present an analysis of the mean-field kinetics of Brownian coagulation of droplets and polymers d...
We present a detailed study of the kinetic cluster growth process during gelation of weakly attracti...
In many processes of interest in physics, chemistry and biology small particles come together to for...
Experimental studies on the irreversible growth of field-induced chains of dipolar particles suggest...
The scaling behavior of confined dipolar chains over 5 orders of magnitude, which was established by...
Particles interacting by a combination of isotropic short-range attraction and long-range repulsion ...
We investigate the dynamics of the irreversible aggregation of linear rigid chains oriented along a ...
The kinetics of aggregation of non Brownian magnetizable particles in the presence of a magnetic fie...
In this work, we use structure and dynamics in sedimentation equilibrium, in the presence of gravity...
Aggregation in nondiffusion limited colloidal particle suspensions follows a temporal power-law depe...
Non-magnetic particles in suspension in a ferrofluid act as magnetic holes when an external magnetic...
We study the dynamic scaling properties of an aggregation model in which particles obey both diffusi...
Nonmagnetic particles in suspension in a ferrofluid act as magnetic holes when an external magnetic ...
Doctor of PhilosophyPhysicsAmitabha ChakrabartiThe aim of this work is to explore, using computation...
We prove that a new, irreversible growth algorithm, Non-Deletion Reaction-Limited Cluster-cluster Ag...
We present an analysis of the mean-field kinetics of Brownian coagulation of droplets and polymers d...
We present a detailed study of the kinetic cluster growth process during gelation of weakly attracti...
In many processes of interest in physics, chemistry and biology small particles come together to for...
Experimental studies on the irreversible growth of field-induced chains of dipolar particles suggest...
The scaling behavior of confined dipolar chains over 5 orders of magnitude, which was established by...
Particles interacting by a combination of isotropic short-range attraction and long-range repulsion ...
We investigate the dynamics of the irreversible aggregation of linear rigid chains oriented along a ...
The kinetics of aggregation of non Brownian magnetizable particles in the presence of a magnetic fie...
In this work, we use structure and dynamics in sedimentation equilibrium, in the presence of gravity...
Aggregation in nondiffusion limited colloidal particle suspensions follows a temporal power-law depe...
Non-magnetic particles in suspension in a ferrofluid act as magnetic holes when an external magnetic...
We study the dynamic scaling properties of an aggregation model in which particles obey both diffusi...
Nonmagnetic particles in suspension in a ferrofluid act as magnetic holes when an external magnetic ...
Doctor of PhilosophyPhysicsAmitabha ChakrabartiThe aim of this work is to explore, using computation...
We prove that a new, irreversible growth algorithm, Non-Deletion Reaction-Limited Cluster-cluster Ag...
We present an analysis of the mean-field kinetics of Brownian coagulation of droplets and polymers d...
We present a detailed study of the kinetic cluster growth process during gelation of weakly attracti...
In many processes of interest in physics, chemistry and biology small particles come together to for...