The authors present molecular dynamics (MD) simulations of energetic Ar+ ions (20–200 eV) interacting with initially crystalline silicon, with quantitative comparison to experiment. Ar+ bombardment creates a damaged or amorphous region at the surface, which reaches a steady-state thickness that is a function of the impacting ion energy. Real-time spectroscopic ellipsometry data of the same phenomenon match the MD simulation well, as do analogous SRIM simulations. They define positional order parameters that detect a sharp interface between the amorphous and crystalline regions. They discuss the formation of this interesting feature in the simulation, and show that it provides insight into some assumptions made in the analysis of experimenta...
We combine molecular dynamics and Monte Carlo simulations to study damage accumulation and dose rate...
Molecular dynamics (MD) and Monte-Carlo (MC) simulations of low-energy (<500eV) Ar ion irradiatio...
Swift heavy ion irradiation (SHII) can leave a latent ion track around the ion path. Tracks in amorp...
The authors present molecular dynamics (MD) simulations of energetic Ar+ ions (20–200 eV) interactin...
The authors present molecular dynamics (MD) simulations of energetic Ar+ ions (20–200 eV) interactin...
The authors present molecular dynamics (MD) simulations of energetic Ar+ ions (20–200 eV) interactin...
The authors present molecular dynamics (MD) simulations of energetic Ar+ ions (20–200 eV) interactin...
Abstract: A study of the interactions of energetic argon ions with silicon surfaces using molecular ...
Molecular dynamics simulations were performed to investigate the effects of surface temperature on A...
In the first part of this work, molecular dynamics simulation is used to produce crater functions wh...
Using molecular dynamics (MD) simulation, the authors investigate the mechanical response of silicon...
In this paper, we provide an overview of the use of molecular dynamics for simulations involving ene...
In this paper, we provide an overview of the use of molecular dynamics for simulations involving ene...
Molecular dynamics simulations of Ar ion collision on a Si surface using an optimized potential func...
We have studied the ion bombardment induced amorphous-to-crystal transition in silicon using molecul...
We combine molecular dynamics and Monte Carlo simulations to study damage accumulation and dose rate...
Molecular dynamics (MD) and Monte-Carlo (MC) simulations of low-energy (<500eV) Ar ion irradiatio...
Swift heavy ion irradiation (SHII) can leave a latent ion track around the ion path. Tracks in amorp...
The authors present molecular dynamics (MD) simulations of energetic Ar+ ions (20–200 eV) interactin...
The authors present molecular dynamics (MD) simulations of energetic Ar+ ions (20–200 eV) interactin...
The authors present molecular dynamics (MD) simulations of energetic Ar+ ions (20–200 eV) interactin...
The authors present molecular dynamics (MD) simulations of energetic Ar+ ions (20–200 eV) interactin...
Abstract: A study of the interactions of energetic argon ions with silicon surfaces using molecular ...
Molecular dynamics simulations were performed to investigate the effects of surface temperature on A...
In the first part of this work, molecular dynamics simulation is used to produce crater functions wh...
Using molecular dynamics (MD) simulation, the authors investigate the mechanical response of silicon...
In this paper, we provide an overview of the use of molecular dynamics for simulations involving ene...
In this paper, we provide an overview of the use of molecular dynamics for simulations involving ene...
Molecular dynamics simulations of Ar ion collision on a Si surface using an optimized potential func...
We have studied the ion bombardment induced amorphous-to-crystal transition in silicon using molecul...
We combine molecular dynamics and Monte Carlo simulations to study damage accumulation and dose rate...
Molecular dynamics (MD) and Monte-Carlo (MC) simulations of low-energy (<500eV) Ar ion irradiatio...
Swift heavy ion irradiation (SHII) can leave a latent ion track around the ion path. Tracks in amorp...