Kinetic Monte Carlo Modeling of Boron Diffusion in Strained Silicon
スポンサーリンク
概要
- 論文の詳細を見る
We discuss the boron diffusion in a biaxial tensile-strained {001} Si and SiGe layer using the kinetic Monte Carlo (KMC) method. We created strain in silicon by adding a germanium mole fraction to the silicon in order to perform a theoretical analysis. The generation of strain in silicon influences the diffusivity as well as the penetration profile during the implantation. The strain energy of the charged defects was calculated from ab initio calculation whereas the diffusivity of boron was extracted from the Arrhenius formula. Hereby, the influence of the germanium content on the dopant diffusivity was estimated. Our KMC study revealed that the diffusion of the B atoms was retarded with increasing germanium mole fraction in the strained silicon layer. Furthermore, we derived the functional dependence of the in-plane strain as well as the out-of-plane strain on the germanium mole fraction, which is based on the distribution of equivalent stress along the Si/SiGe interface.
- Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
- 2007-04-30
著者
-
Won Taeyoung
Department Of Electrical Engineering National It Research Center For Computational Electronics Inha
-
Yoon Kwan-sun
Department Of Electrical Engineering National It Research Center For Computational Electronics Inha
-
Kim Joong-sik
Department Of Electrical Engineering School Of Engineering Inha University
-
Kim Joong-Sik
Department of Electrical Engineering, School of Engineering, Inha University and National IT Research Center for Computational Electronics, 253 Yong-Hyun-dong, Nam-Ku, Incheon 402-751, Korea
-
Yoon Kwan-Sun
Department of Electrical Engineering, School of Engineering, Inha University and National IT Research Center for Computational Electronics, 253 Yong-Hyun-dong, Nam-Ku, Incheon 402-751, Korea
-
Kim Young-Kyu
Department of Electrical Engineering, School of Engineering, Inha University and National IT Research Center for Computational Electronics, 253 Yong-Hyun-dong, Nam-Ku, Incheon 402-751, Korea
-
Won Taeyoung
Department of Electrical Engineering, School of Engineering, Inha University and National IT Research Center for Computational Electronics, 253 Yong-Hyun-dong, Nam-Ku, Incheon 402-751, Korea
関連論文
- Fast and Accurate Simulation for Topography in Nanometer Semiconductor Process
- Two-Dimensional Quantum Mechanical Modeling of Strained-Si FinFETs on SiGe-On-Insulator(SGOI)
- Device Optimization of Multiple-Channel Field Effect Transistor with Two Dimensional Poisson–Schrödinger Solver
- Ab-initio Study on Energy Barrier for Neutral Indium Migration in a Silicon Substrate
- Atomistic Modeling of Boron Diffusion with Germanium Pre-amorphization for Ultra Shallow S/D Junction in nanometer-scale PMOS Devices
- Nanoscale Device Modeling and Simulation: Fin Field-Effect Transistor (FinFET)
- Kinetic Monte Carlo Modeling of Boron Diffusion in Strained Silicon
- Two-Dimensional Quantum-Mechanical Modeling and Simulation of Strained-Si Fin Field Effect Transistor (FinFET) on SiGe-On-Insulator
- Performance Comparison between Asymmetric Polycrystalline Silicon Gate and TiN Gate Fin-Shaped Field Effect Transistors
- Topography Simulation for Nanometer Semiconductor Process