Title :
Simulation of implantation into HfO2 by MD method
Author :
Ji, Huihui ; Yu, Min ; Shi, Hao ; Shi, Xiaokang ; Huang, Ru ; Zhang, Xing ; Suzuki, Kunihiro ; Oka, Hideki
Author_Institution :
Dept. of Microelectron., Peking Univ., Beijing, China
Abstract :
Molecular dynamics (MD) method has not been reported to predict range profiles of implantation into HfO2 and stopping power models especially electronic stopping power model has not been studied specifically. In this article, MD method is successfully applied to simulate B, As and P implantation into HfO2. An efficient electronic stopping model with only one free parameter, i.e., the single electron radius, is carefully discussed. A reliable fitting value of the single electron radius is firstly given for B, As and P implantation into HfO2. Using the obtained fitting value, simulation results agree with SIMS data excellently over the energy range of 5 - 40 keV.
Keywords :
dielectric thin films; energy loss of particles; hafnium compounds; ion implantation; molecular dynamics method; secondary ion mass spectra; semiconductor process modelling; 5 to 40 keV; HfO2; LEACS program; SIMS data; electronic stopping model; high-k gate material; ion implantation simulation; molecular dynamics method; moving box method; range profiles; recoil interaction approximation; reduced CPU time; reliable fitting value; single electron radius; Analytical models; Electrons; Hafnium oxide; High K dielectric materials; High-K gate dielectrics; Nuclear electronics; Predictive models; Projectiles; Protons; Thermal stability;
Conference_Titel :
Junction Technology, 2004. IWJT '04. The Fourth International Workshop on
Print_ISBN :
0-7803-8191-2
DOI :
10.1109/IWJT.2004.1306867
