Add to ORKGWe study thin film growth using a lattice-gas, solid-on solid model employing the Monte Carlo technique. The model is applied to chemical vapour deposition (CVD) by including the rate of arrival of the precursor molecules and their dissociation. We include several types of migration energies including the edge migration energy which allows the diffusive movement of the monomer along the interface of the growing film, as well as a migration energy which allows for motion transverse to the interface. Several well known features of thin film growth are mimicked by this model, including some features of thin copper films grown by CVD. Other features reproduced are - compact clusters, fractal-like clusters, Frank-van der Merwe layer-by-layer gro...
In this paper, we review the principles and the applications of an atomistic simulator for thin film...
The evolution of structure in thin films is usually discussed using a kinetic description. This desc...
We present a kinetic lattice Monte Carlo simulation model that describes deposition, surface self-di...
Thin films consist of nanoscale layers of material that are used in many technological applications ...
Thin films consist of nanoscale layers of material that are used in many technological applications ...
This diploma thesis is focused on the design and application of computational physics and image anal...
The thin film growth has been confirmed to be assembled by an enormous number of clusters in experim...
Chemical vapor deposition is gradually emphasized as one promising method of nanomaterial formation....
The various thin film growth mechanisms during thermal vacuum evaporation at atomic level are consid...
Thin films are nanoscale layers of material, with exotic properties useful in diverse areas, ranging...
Two recently developed multiscale approaches for simulations of metalization morphologies under ioni...
Two recently developed multiscale approaches for simulations of metalization morphologies under ioni...
A program for the simulation of the nucleation and growth of thin island films on amorphous substrat...
A program for the simulation of the nucleation and growth of thin island films on amorphous substrat...
Monte Carlo simulations of physical and chemical vapor deposition are used to study roughening kinet...
In this paper, we review the principles and the applications of an atomistic simulator for thin film...
The evolution of structure in thin films is usually discussed using a kinetic description. This desc...
We present a kinetic lattice Monte Carlo simulation model that describes deposition, surface self-di...
Thin films consist of nanoscale layers of material that are used in many technological applications ...
Thin films consist of nanoscale layers of material that are used in many technological applications ...
This diploma thesis is focused on the design and application of computational physics and image anal...
The thin film growth has been confirmed to be assembled by an enormous number of clusters in experim...
Chemical vapor deposition is gradually emphasized as one promising method of nanomaterial formation....
The various thin film growth mechanisms during thermal vacuum evaporation at atomic level are consid...
Thin films are nanoscale layers of material, with exotic properties useful in diverse areas, ranging...
Two recently developed multiscale approaches for simulations of metalization morphologies under ioni...
Two recently developed multiscale approaches for simulations of metalization morphologies under ioni...
A program for the simulation of the nucleation and growth of thin island films on amorphous substrat...
A program for the simulation of the nucleation and growth of thin island films on amorphous substrat...
Monte Carlo simulations of physical and chemical vapor deposition are used to study roughening kinet...
In this paper, we review the principles and the applications of an atomistic simulator for thin film...
The evolution of structure in thin films is usually discussed using a kinetic description. This desc...
We present a kinetic lattice Monte Carlo simulation model that describes deposition, surface self-di...