In this work we have reported the evolution of rough surface by different competitive growth model in 1+1 dimension. The competition has mainly been made between Random Deposition- Ballistic Deposition (RD-BD) and Random Deposition with Surface Relaxation-Ballistic Deposition (RDSRBD) model. The influence of a typical growth mechanism on the critical time and interface width has been studied in detail by varying the fractional values (p) for a typical model. Different parameters like roughness exponent, growth exponent or velocity of the surface growth have been studied and a typical dependence of all these parameters on phas been found and reported for the first time. It has been found that unlike the previously reported result the growth ...
In this dissertation, I present a number of theoretical and numerical studies of the dynamic scaling...
We performed extensive Monte Carlo simulations of the ballistic deposition model in (1 + 1)-dimensio...
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...
A competitive growth model (CGM) describes the aggregation of a single type of particle under two di...
In this work, we introduce a restricted ballistic deposition model with symmetric growth rules that ...
The paper presents results from kinetic Monte Carlo simulations of kinetic surface roughening using ...
Non-equilibrium surface growth for competitive growth models in (1+1) dimensions, particularly mixin...
The pattern structure and the scaling behavior of the surface width for two deposition models of two...
We present an optimal detrended fluctuation analysis (DFA) and applied it to evaluate the local roug...
We present simulation results of deposition growth of surfaces in two, three, and four dimensions fo...
We study the ballistic deposition and the grain deposition models on two-dimensional substrates. Usi...
The dynamics of growth and formation of surfaces and interfaces is becoming very important for the u...
We study the dynamics of growth at the interface level for two different kinetic models. Both of the...
In this dissertation, I present a number of theoretical and numerical studies of the dynamic scaling...
We performed extensive Monte Carlo simulations of the ballistic deposition model in (1 + 1)-dimensio...
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...
A competitive growth model (CGM) describes the aggregation of a single type of particle under two di...
In this work, we introduce a restricted ballistic deposition model with symmetric growth rules that ...
The paper presents results from kinetic Monte Carlo simulations of kinetic surface roughening using ...
Non-equilibrium surface growth for competitive growth models in (1+1) dimensions, particularly mixin...
The pattern structure and the scaling behavior of the surface width for two deposition models of two...
We present an optimal detrended fluctuation analysis (DFA) and applied it to evaluate the local roug...
We present simulation results of deposition growth of surfaces in two, three, and four dimensions fo...
We study the ballistic deposition and the grain deposition models on two-dimensional substrates. Usi...
The dynamics of growth and formation of surfaces and interfaces is becoming very important for the u...
We study the dynamics of growth at the interface level for two different kinetic models. Both of the...
In this dissertation, I present a number of theoretical and numerical studies of the dynamic scaling...
We performed extensive Monte Carlo simulations of the ballistic deposition model in (1 + 1)-dimensio...
We present results of simulations of deposition growth at finite temperatures using a ballistic depo...