We present simulation results of deposition growth of surfaces in two, three, and four dimensions for ballistic deposition where overhangs are present, and for restricted solid on solid deposition where there are no overhangs. The values of the scaling exponents for the two models are found to be different, suggesting that they belong to different universality classes
This work sets out to develop a model to analyse surface growth during high energy deposition. This ...
The effect of the atomic mobility on a film surface has been studied by using a three-dimensional at...
Growth of interfaces during vapor deposition is analyzed on a discrete lattice. It leads to finding ...
We study the ballistic deposition and the grain deposition models on two-dimensional substrates. Usi...
We present results of simulations of deposition growth at finite temperatures using a ballistic depo...
In this work we have reported the evolution of rough surface by different competitive growth model i...
In this work we have reported the evolution of rough surface by different competitive growth model i...
The pattern structure and the scaling behavior of the surface width for two deposition models of two...
The paper presents results from kinetic Monte Carlo simulations of kinetic surface roughening using ...
A Monte Carlo model has been used to study surface growth in thin film epitaxy. The model accounts f...
We consider several aspects of the irreversible deposition of particles on surfaces. We show by dire...
In this work, we introduce a restricted ballistic deposition model with symmetric growth rules that ...
We performed extensive Monte Carlo simulations of the ballistic deposition model in (1 + 1)-dimensio...
In this thesis the time evolution and scaling properties of different discrete models of surface gro...
A competitive growth model (CGM) describes the aggregation of a single type of particle under two di...
This work sets out to develop a model to analyse surface growth during high energy deposition. This ...
The effect of the atomic mobility on a film surface has been studied by using a three-dimensional at...
Growth of interfaces during vapor deposition is analyzed on a discrete lattice. It leads to finding ...
We study the ballistic deposition and the grain deposition models on two-dimensional substrates. Usi...
We present results of simulations of deposition growth at finite temperatures using a ballistic depo...
In this work we have reported the evolution of rough surface by different competitive growth model i...
In this work we have reported the evolution of rough surface by different competitive growth model i...
The pattern structure and the scaling behavior of the surface width for two deposition models of two...
The paper presents results from kinetic Monte Carlo simulations of kinetic surface roughening using ...
A Monte Carlo model has been used to study surface growth in thin film epitaxy. The model accounts f...
We consider several aspects of the irreversible deposition of particles on surfaces. We show by dire...
In this work, we introduce a restricted ballistic deposition model with symmetric growth rules that ...
We performed extensive Monte Carlo simulations of the ballistic deposition model in (1 + 1)-dimensio...
In this thesis the time evolution and scaling properties of different discrete models of surface gro...
A competitive growth model (CGM) describes the aggregation of a single type of particle under two di...
This work sets out to develop a model to analyse surface growth during high energy deposition. This ...
The effect of the atomic mobility on a film surface has been studied by using a three-dimensional at...
Growth of interfaces during vapor deposition is analyzed on a discrete lattice. It leads to finding ...