Ultrathin Strained-Ge Channel P-MOSFETs With High- K /Metal Gate and Sub-1-nm Equivalent Oxide Thickness

Ultrathin Strained-Ge Channel P-MOSFETs With High- K /Metal Gate and Sub-1-nm Equivalent Oxide Thickness

Surface-channel strained-Ge (s-Ge) p-MOSFETs with high- K /metal gate stack and ozone surface passivation are fabricated, for the first time. The channel is ultrathin (approximately 3-6 nm thick) s-Ge (approximately 2.2%, biaxial compression) epitaxially grown on a relaxed Si 0.56 Ge 0.44 virtual su...

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Veröffentlicht in:IEEE electron device letters 2012-07, Vol.33 (7), p.943-945
Hauptverfasser: Hashemi, O., Chern, W., Lee, H., Teherani, J. T., Zhu, Y., Gonsalvez, J., Shahidi, G. G., Hoyt, J. L.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Capacitance-equivalent thickness (CET)
Electronics
Exact sciences and technology
Hafnium compounds
high- K
Logic gates
metal gate
mobility
MOSFET circuits
ozone
Passivation
Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices
SiGe
Silicon
strained Ge (s-Ge)
Transistors
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Zusammenfassung:Surface-channel strained-Ge (s-Ge) p-MOSFETs with high- K /metal gate stack and ozone surface passivation are fabricated, for the first time. The channel is ultrathin (approximately 3-6 nm thick) s-Ge (approximately 2.2%, biaxial compression) epitaxially grown on a relaxed Si 0.56 Ge 0.44 virtual substrate. Split capacitance-voltage measurements along with quantum-mechanical simulations demonstrate a capacitance-equivalent thickness of 1.3 nm and sub-1-nm equivalent oxide thickness. The effective hole mobility of these devices was extracted and exhibits 3× and 2.2× mobility enhancement over universal Si hole mobility, for s-Ge channel thicknesses of ~6 and ~3 nm, respectively.
ISSN:0741-3106
1558-0563
DOI:10.1109/LED.2012.2195631