SiGe pMODFETs on silicon-on-sapphire substrates with 116 GHz fmax

SiGe pMODFETs on silicon-on-sapphire substrates with 116 GHz fmax

The dc and microwave results of Si/sub 0.2/Ge/sub 0.8//Si/sub 0.7/Ge/sub 0.3/ pMODFETs grown on silicon-on-sapphire (SOS) substrates by ultrahigh vacuum chemical vapor deposition are reported. Devices with L/sub g/=0.1 μm displayed high transconductance (377 mS/mm), low output conductance (25 mS/mm)...

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Veröffentlicht in:IEEE electron device letters 2001-02, Vol.22 (2), p.92-94
Hauptverfasser: Koester, S.J., Hammond, R., Chu, J.O., Mooney, P.M., Ott, J.A., Perraud, L., Jenkins, K.A., Webster, C.S., Lagnado, I., de la Houssaye, P.R.
Format: Artikel
Sprache:eng
Schlagworte:
Chemical vapor deposition
Epitaxial layers
Germanium silicon alloys
HEMTs
Microwave devices
MODFETs
Noise figure
Silicon germanium
Silicon on insulator technology
Substrates
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Zusammenfassung:The dc and microwave results of Si/sub 0.2/Ge/sub 0.8//Si/sub 0.7/Ge/sub 0.3/ pMODFETs grown on silicon-on-sapphire (SOS) substrates by ultrahigh vacuum chemical vapor deposition are reported. Devices with L/sub g/=0.1 μm displayed high transconductance (377 mS/mm), low output conductance (25 mS/mm), and high gate-to-drain breakdown voltage (4 V). The dc current-voltage (I-V) characteristics were also nearly identical to those of control devices grown on bulk Si substrates. Microwave characterization of 0.1×50 μm 2 devices yielded unity current gain (f T ) and unilateral power gain (f max ) cutoff frequencies as high as 50 GHz and 116 GHz, respectively. Noise parameter characterization of 0.1×90 μm 2 devices revealed minimum noise figure (F min ) of 0.6 dB at 3 GHz and 2.5 dB at 20 GHz.
ISSN:0741-3106
1558-0563
DOI:10.1109/55.902842