论文信息 - Techniques for reducing the reverse short channel effect in sub-0.5 μm CMOS

Techniques for reducing the reverse short channel effect in sub-0.5 μm CMOS

Experimental evidence is presented demonstrating that the reverse short channel effect (RSCE) is initiated by damage from the source-drain implants which, in turn, causes defect-enhanced diffusion of the channel dopants toward the gate oxide interface. Several process options that attempt to modify the diffusion of the channel implants, such as channel doping profile engineering, vacancy injection into the silicon substrate through sputter-etch damage, and TEOS depositions on silicon followed by rapid thermal annealing, are described which reduce the magnitude of the reverse short channel effect. This often results in an increase in device short channel margin of as much as 50 nm and a concomitant increase in the n-channel drive current of as much as 10%.<<ETX>>

S. Venkatesan | J. Lutze

[1] Transient phosphorus diffusion from silicon and argon implantation damage , 1993 .

[2] Tetsuya Uchida,et al. Reverse short-channel effect due to lateral diffusion of point-defect induced by source/drain ion implantation , 1994, IEEE Trans. Comput. Aided Des. Integr. Circuits Syst..

[3] W. Noble,et al. A model for anomalous short-channel behavior in submicron MOSFETs , 1993, IEEE Electron Device Letters.

[4] M. R. Pinto,et al. Explanation of reverse short channel effect by defect gradients , 1993, Proceedings of IEEE International Electron Devices Meeting.

[5] F. Lau,et al. MOSFET reverse short channel effect due to silicon interstitial capture in gate oxide , 1993, Proceedings of IEEE International Electron Devices Meeting.

[6] C. Mazure,et al. Guidelines for reverse short-channel behavior , 1989, IEEE Electron Device Letters.

[7] J. Bravman,et al. Eliminating dopant diffusion after ion implantation by surface etching , 1994 .

[8] C. Lu,et al. Reverse short-channel effects on threshold voltage in submicrometer salicide devices , 1989, IEEE Electron Device Letters.