Soon-Yeol Park scite author profile

We report our kinetic Monte Carlo (kMC) study of the effect of carbon co-implant on the pre-amorphization implant (PAL) process. We employed BCA (Binary Collision Approximation) approach for the acquisition of the initial as-implant dopant profile and kMC method for the simulation of diffusion process during the annealing process. The simulation results implied that carbon co-implant suppresses the boron diffusion due to the recombination with interstitials. Also, we could compare the boron diffusion with carbon diffusion by calculating carbon reaction with interstitial. And we can find that boron diffusion is affected from the carbon co-implant energy by enhancing the trapping of interstitial between boron and interstitial.

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Ab-Initio Study of Neutral Indium Diffusion in Uniaxially- and Biaxially-Strained Silicon

Kim¹,

Cho²,

Park³

et al. 2008

j nanosci nanotechnol

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In this paper, we present our ab-initio study on energy configurations, minimum energy path (MEP), and migration energy for neutral indium diffusion in a uniaxial and biaxial tensile strained {100} silicon layer. Our ab-initio calculation of the electronic structure allowed us to figure out transient atomistic configurations during the indium diffusion in strained silicon. We found that the lowest-energy structure (Ins - SiTd) consists of indium sitting on a substitutional site while stabilizing a silicon self-interstitial in a nearby tetrahedral position. Our ab-initio calculation implied that the next lowest energy structure is Inj(Td), the interstitial indium at the tetrahedral position. We employed the nudged elastic band (NEB) method for estimating the MEP between the two structures. The NEB method allowed us to find that that diffusion pathway of neutral indium is kept unchanged in strained silicon while the migration energy of indium fluctuates in strained silicon.

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Kinetic Monte Carlo study on boron diffusion posterior to pre-amorphization implant process

Park

Kim

Won

2009

Microelectronic Engineering

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Ab-initio study on parameter extraction for kinetic Monte Carlo simulation of neutral indium diffusion in uniaxially- and biaxially-strained silicon

Kim

Cho

Park

et al. 2008

Microelectronic Engineering

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Soon-Yeol Park

Some insights to determine the proper level of descriptions about proceduralized tasks

Kinetic Monte Carlo (kMC) Simulation of Carbon Co-Implant on Pre-Amorphization Process

Ab-Initio Study of Neutral Indium Diffusion in Uniaxially- and Biaxially-Strained Silicon

Kinetic Monte Carlo study on boron diffusion posterior to pre-amorphization implant process

Ab-initio study on parameter extraction for kinetic Monte Carlo simulation of neutral indium diffusion in uniaxially- and biaxially-strained silicon

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