A self-aligned inverse-T gate fully overlapped LDD device for sub-half micron CMOS

A self-aligned inverse-T gate fully overlapped LDD device for sub-half micron CMOS

A novel self-aligned technique for fabricating inverse-T gate fully overlapped LDD (FOLD) MOSFETs is proposed. The technique uses an oxide or TiN buffer layer sandwiched in a polysilicon gate stack to act as an RIE (reactive ion etching) etch stop. Both the oxide and TiN exhibit good etch selectivit...

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Bibliographische Detailangaben
Hauptverfasser: Wen, D.S., Hsu, C.C.-H., Taur, Y., Zicherman, D.S., Wordeman, M.R., Ning, T.H.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Buffer layers
Conductivity
Etching
Fingers
MOSFETs
Oxidation
Plasma applications
Plasma immersion ion implantation
Reproducibility of results
Tin
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Zusammenfassung:A novel self-aligned technique for fabricating inverse-T gate fully overlapped LDD (FOLD) MOSFETs is proposed. The technique uses an oxide or TiN buffer layer sandwiched in a polysilicon gate stack to act as an RIE (reactive ion etching) etch stop. Both the oxide and TiN exhibit good etch selectivities with respect to polysilicon. Therefore, a controllable, uniform polysilicon finger can be obtained to form the inverse-T structure. A 0.35- mu m n-channel inverse-T gate MOSFET with fully overlapped LDD (lightly doped drain) design has been fabricated and characterized. It is found that the inverse-T LDD device preserves the performance of a non-LDD device while providing reliability improvement similar to that of a conventional LDD device. The inverse-T LDD device is suitable for high-performance, high-reliability sub-half-micron device applications.< >
ISSN:0163-1918
2156-017X
DOI:10.1109/IEDM.1989.74166