TED model including the dissolution of extended defects

Author

Kamohara, Shiroo ; Shimizu, Akihiro ; Yamamoto, Shuichi ; Kubota, Katsuhiko

Author_Institution

Semicond. Design & Dev. Center, Hitachi Ltd., Tokyo, Japan

fYear

1996

fDate

2-4 Sept. 1996

Firstpage

85

Lastpage

86

Abstract

The requirement for the formation of the shallow junction has arisen as device dimensions shrink into the submicron regime. The shallow junctions are generally formed by low-energy ion implantation followed by low thermal-budget processing. However, simulations of dopant diffusion during the thermal processing have not been very successful, mainly due to the transient enhanced diffusion (TED). TED continues until the concentrations of the point defects, interstitial silicon, and vacancies become almost their thermal equilibrium values. For accurate simulation of TED, the effect of the extended defect dissolution cannot be neglected. In this work, we propose a new TED model which includes the extended defect dissolution.

Keywords

diffusion; interstitials; ion implantation; vacancies (crystal); TED model; dopant diffusion; extended defect dissolution; extended defects; interstitials; low thermal-budget processing; low-energy ion implantation; point defects; shallow junction; submicron regime; thermal equilibrium values; transient enhanced diffusion; vacancies; Circuit simulation; Equations; Impurities; Integrated circuit modeling; Ion implantation; Radiative recombination; Semiconductor process modeling; Silicon; Simulated annealing; Ultra large scale integration;

fLanguage

English

Publisher

ieee

Conference_Titel

Simulation of Semiconductor Processes and Devices, 1996. SISPAD 96. 1996 International Conference on

Print_ISBN

0-7803-2745-4

Type

conf

DOI

10.1109/SISPAD.1996.865284

Filename

865284