Carrier profile designing to suppress systematic Vth variation related with device layout by controlling STI-enhanced dopant diffusions correlated with point defects

Author

Fukutome, H. ; Momiyama, Y. ; Satoh, A. ; Tamura, Y. ; Minakata, H. ; Okabe, K. ; Mutoh, E. ; Suzuki, K. ; Usujima, A. ; Arimoto, H. ; Satoh, S.

Author_Institution

Fujitsu Microelectron. Ltd., Tokyo, Japan

fYear

2009

Firstpage

1

Lastpage

4

Abstract

We directly measured that anisotropic dopant diffusion into the shallow trench isolation (STI) sink was the predominant factor to cause dependence of the threshold voltage (V_th) on the active width along the channel direction (LOD) for the nMOSFETs. We evaluated by Raman spectroscopy and 3-D stress simulation effects of the STI-induced stress variation on the V_th. Moreover, we directly measured that dopant diffusions coupled with point defect, as transient enhanced diffusion, resulted in the carrier profile depending on the LOD. In particular, it was found that the excess point defect in the deep source/drain enhanced the random extension edge roughness and increased intrinsic V_th fluctuation in the narrow-LOD nMOSFET.

Keywords

MOSFET; 3D stress simulation effects; Raman spectroscopy; anisotropic dopant diffusion; carrier profile; device layout; excess point defect; metal-oxide-semiconductor field effect transistors; nMOSFET; random extension edge roughness; shallow trench isolation sink; suppress systematic; threshold voltage; Compressive stress; Electric variables; Fluctuations; Implants; MOSFETs; Raman scattering; Spectroscopy; Stress measurement; Threshold voltage; Transistors;

fLanguage

English

Publisher

ieee

Conference_Titel

Electron Devices Meeting (IEDM), 2009 IEEE International

Conference_Location

Baltimore, MD

Print_ISBN

978-1-4244-5639-0

Electronic_ISBN

978-1-4244-5640-6

Type

conf

DOI

10.1109/IEDM.2009.5424423

Filename

5424423