High-performance 0.1μm gate-length Ge/Si0.4Ge0.6 p-channel MODFETs

R. Hammond; S. J. Koester; J. O. Chu

doi:10.1049/el:19991036

High-performance 0.1μm gate-length Ge/Si_0.4Ge_0.6 p-channel MODFETs

R. Hammond, S. J. Koester, J. O. Chu

Electrical and Computer Engineering

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Abstract

Results are reported of high-transconductance p-channel MODFETs fabricated on Ge/Sio_0.4Ge_0.6 strained-layer heterostructures grown by UHV-CVD. Devices with 0.1 mm gate length were fabricated on compressively-strained pure-Ge channels with a Hall mobility of 1750cm²/Vs (30900cm²/Vs) at room temperature (T = 77K). These devices displayed room-temperature peak extrinsic transconductances as high as 317 mS/mm, at V_ds = -0.6V, while the output conductance under the same bias conditions was only 18mS/mm, corresponding to a maximum voltage gain of 18. At T = 77K, peak extrinsic transconductances as high as 622 mS/mm were obtained at bias voltages as low as V_ds = -0.2V. To our knowledge, the 77K transconductance is the highest ever reported for a p-type field effect transistor.

Original language	English (US)
Pages (from-to)	1590-1591
Number of pages	2
Journal	Electronics Letters
Volume	35
Issue number	18
DOIs	https://doi.org/10.1049/el:19991036
State	Published - Sep 2 1999

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abstract = "Results are reported of high-transconductance p-channel MODFETs fabricated on Ge/Sio0.4Ge0.6 strained-layer heterostructures grown by UHV-CVD. Devices with 0.1 mm gate length were fabricated on compressively-strained pure-Ge channels with a Hall mobility of 1750cm2/Vs (30900cm2/Vs) at room temperature (T = 77K). These devices displayed room-temperature peak extrinsic transconductances as high as 317 mS/mm, at Vds = -0.6V, while the output conductance under the same bias conditions was only 18mS/mm, corresponding to a maximum voltage gain of 18. At T = 77K, peak extrinsic transconductances as high as 622 mS/mm were obtained at bias voltages as low as Vds = -0.2V. To our knowledge, the 77K transconductance is the highest ever reported for a p-type field effect transistor.",

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T1 - High-performance 0.1μm gate-length Ge/Si0.4Ge0.6 p-channel MODFETs

AU - Hammond, R.

AU - Koester, S. J.

AU - Chu, J. O.

PY - 1999/9/2

Y1 - 1999/9/2

N2 - Results are reported of high-transconductance p-channel MODFETs fabricated on Ge/Sio0.4Ge0.6 strained-layer heterostructures grown by UHV-CVD. Devices with 0.1 mm gate length were fabricated on compressively-strained pure-Ge channels with a Hall mobility of 1750cm2/Vs (30900cm2/Vs) at room temperature (T = 77K). These devices displayed room-temperature peak extrinsic transconductances as high as 317 mS/mm, at Vds = -0.6V, while the output conductance under the same bias conditions was only 18mS/mm, corresponding to a maximum voltage gain of 18. At T = 77K, peak extrinsic transconductances as high as 622 mS/mm were obtained at bias voltages as low as Vds = -0.2V. To our knowledge, the 77K transconductance is the highest ever reported for a p-type field effect transistor.

AB - Results are reported of high-transconductance p-channel MODFETs fabricated on Ge/Sio0.4Ge0.6 strained-layer heterostructures grown by UHV-CVD. Devices with 0.1 mm gate length were fabricated on compressively-strained pure-Ge channels with a Hall mobility of 1750cm2/Vs (30900cm2/Vs) at room temperature (T = 77K). These devices displayed room-temperature peak extrinsic transconductances as high as 317 mS/mm, at Vds = -0.6V, while the output conductance under the same bias conditions was only 18mS/mm, corresponding to a maximum voltage gain of 18. At T = 77K, peak extrinsic transconductances as high as 622 mS/mm were obtained at bias voltages as low as Vds = -0.2V. To our knowledge, the 77K transconductance is the highest ever reported for a p-type field effect transistor.

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High-performance 0.1μm gate-length Ge/Si_0.4Ge_0.6 p-channel MODFETs

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