Enhancement mode metal-semiconductor field effect transistors using homoepitaxial diamonds

Hiroshi Kawarada; Makoto Aoki; Masahiro Ito

doi:10.1063/1.112915

Enhancement mode metal-semiconductor field effect transistors using homoepitaxial diamonds

Hiroshi Kawarada^*, Makoto Aoki, Masahiro Ito

^*Corresponding author for this work

School of Fundamental Science and Engineering

Research output: Contribution to journal › Article › peer-review

157 Citations (Scopus)

Abstract

Enhancement mode-type metal-semiconductor field effect transistors using diamond have been fabricated. The transistor operation is based on the control of surface p-type conduction of a hydrogen terminated homoepitaxial layer. Boron doping was not used for the conduction. An aluminum contact is used for the Schottky gate and gold ohmic contacts are used for the source and drain. The obtained transconductance is 20-200 μs/mm using aluminum gates of 10-40 μm in length. The active region on the homoepitaxial layer is thin enough for the total depletion of carriers when the gate bias is zero.

Original language	English
Pages (from-to)	1563-1565
Number of pages	3
Journal	Applied Physics Letters
Volume	65
Issue number	12
DOIs	https://doi.org/10.1063/1.112915
Publication status	Published - 1994

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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abstract = "Enhancement mode-type metal-semiconductor field effect transistors using diamond have been fabricated. The transistor operation is based on the control of surface p-type conduction of a hydrogen terminated homoepitaxial layer. Boron doping was not used for the conduction. An aluminum contact is used for the Schottky gate and gold ohmic contacts are used for the source and drain. The obtained transconductance is 20-200 μs/mm using aluminum gates of 10-40 μm in length. The active region on the homoepitaxial layer is thin enough for the total depletion of carriers when the gate bias is zero.",

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N2 - Enhancement mode-type metal-semiconductor field effect transistors using diamond have been fabricated. The transistor operation is based on the control of surface p-type conduction of a hydrogen terminated homoepitaxial layer. Boron doping was not used for the conduction. An aluminum contact is used for the Schottky gate and gold ohmic contacts are used for the source and drain. The obtained transconductance is 20-200 μs/mm using aluminum gates of 10-40 μm in length. The active region on the homoepitaxial layer is thin enough for the total depletion of carriers when the gate bias is zero.

AB - Enhancement mode-type metal-semiconductor field effect transistors using diamond have been fabricated. The transistor operation is based on the control of surface p-type conduction of a hydrogen terminated homoepitaxial layer. Boron doping was not used for the conduction. An aluminum contact is used for the Schottky gate and gold ohmic contacts are used for the source and drain. The obtained transconductance is 20-200 μs/mm using aluminum gates of 10-40 μm in length. The active region on the homoepitaxial layer is thin enough for the total depletion of carriers when the gate bias is zero.

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Enhancement mode metal-semiconductor field effect transistors using homoepitaxial diamonds

Abstract

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