학술논문

Improvement of short-channel characteristics of a 0.1-μm PMOSFET with ultralow-temperature nitride spacer by using a novel oxide capped boron uphill treatment

Document Type

Periodical

Author

Yang, C.W.; Fang, Y.K.; Chen, C.H.; Wang, W.D.; Ting, S.F.; Chen, S.F.; Cheng, J.Y.; Wang, M.F.; Chen, C.L.; Yao, L.G.; Lee, T.L.; Chen, S.C.; Yu, C.H.; Liang, M.S.

Source

IEEE Electron Device Letters IEEE Electron Device Lett. Electron Device Letters, IEEE. 24(1):43-45 Jan, 2003

Subject

Engineered Materials, Dielectrics and Plasmas
Components, Circuits, Devices and Systems
MOSFET circuits
Boron
Annealing
CMOS technology
Plasma temperature
Ion implantation
Silicon
Very large scale integration
Laboratories

Language

ISSN

0741-3106
1558-0563

Abstract

The thermal annealing at 720/spl deg/C for 2 hr (called boron uphill treatment) with an SiO 2 -capped layer was applied after source/drain extensions (SDE) implantation to improve the short channel characteristics of a 0.1-μm PMOSFET with an ultra-low temperature nitride spacer. The influence and the mechanism of the capped layer on this uphill treatment were investigated. The results show that the capped layer treatment indeed leads to a shallower junction, improved V/sub th/ roll-off characteristic, and added immunity against subsurface punchthrough.

Online Access

Full Text (IEEE) Web of Science JCR 저널정보 Scopus Find it@PNU

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