Your search keyword '"Y. V. Ivanenko"' showing total 2 results

1. Deterministic Eden model of charged-particles aggregation

Author

N. V. Vygornitskii, Y. V. Ivanenko, and N. I. Lebovka

Subjects

Physics, Cluster (physics), General Physics and Astronomy, Boundary (topology), Lambda, Electrostatics, Square lattice, Laplace operator, Charged particle, Phase diagram, Mathematical physics

Abstract

The results of the computer simulation of the aggregates growth of the similarly charged particles in the framework of deterministic Laplacian growth model on a square lattice are presented. Cluster growth is controlled by three parameters ${p, E,\lambda}$, where $p$ - Laplacian growth parameter, $E$ - energy of a particle sticking to a cluster, $\lambda$ - the screening length of electrostatic interactions. The phase diagram of cluster growth is built in the co-ordinates ${E,\lambda}$. The zones of different cluster morphology are selected: I-the zone of finite X-like structures,II-the zone of infinite ramified structures, controlled by electrostatic interactions, III-the zone of infinite structures with electrostatic interactions effectively switched off. Simple electrostatic estimations of the locations of the zone boundaries are presented. It is shown that in general case within the zone II the continuous change of $D_f$, controlled by parameters ${p, E,\lambda}$, takes place. In the degeneration limit when the given model transforms into deterministic version of the Eden model (at $p=0$), the crossover from linear $(D_f=1)$ to compact $(D_f=2)$ structures is observed when passing through the boundary between the zones I and II.

Published

1998

2. Eden growth model for aggregation of charged particles

Author

Y. V. Ivanenko, N. I. Lebovka, and N. V. Vygornitskii

Subjects

Physics, Range (particle radiation), Morphology (linguistics), Statistical Mechanics (cond-mat.stat-mech), Structure (category theory), FOS: Physical sciences, Bending, Condensed Matter Physics, Lambda, Molecular physics, Charged particle, Electronic, Optical and Magnetic Materials, Fractal, Condensed Matter - Statistical Mechanics, Phase diagram

Abstract

The stochastic Eden model of charged particles aggregation in two-dimensional systems is presented. This model is governed by two parameters: screening length of electrostatic interaction, $\lambda $, and short range attraction energy, $E$. Different patterns of finite and infinite aggregates are observed. They are of following types of morphologies: linear or linear with bending, warm-like, DBM (dense-branching morphology), DBM with nucleus, and compact Eden-like. The transition between the different modes of growth is studied and phase diagram of the growth structures is obtained in $\lambda, E $ co-ordinates. The detailed aggregate structure analysis, including analysis of their fractal properties, is presented. The scheme of the internal inhomogeneous structure of aggregates is proposed., Comment: Revtex, 9 pages with 12 postscript figures