AlGaN Channel High Electron Mobility Transistors with Regrown Ohmic Contacts

High power electronics using wide bandgap materials are maturing rapidly, and significant market growth is expected in a near future. Ultra wide bandgap materials, which have an even larger bandgap than GaN (3.4 eV), represent an attractive choice of materials to further push the performance limits...

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Veröffentlicht in:	Electronics (Basel) 2021-03, Vol.10 (6), p.635
Hauptverfasser:	Abid, Idriss, Mehta, Jash, Cordier, Yvon, Derluyn, Joff, Degroote, Stefan, Miyake, Hideto, Medjdoub, Farid
Format:	Artikel
Sprache:	eng
Schlagworte:	Aluminum gallium nitrides Aluminum nitride Breakdown Contact resistance Electric fields Electromagnetism Electronic devices Energy gap Engineering Sciences Gallium nitrides Heterostructures High electron mobility transistors Leakage current Materials selection Metalorganic chemical vapor deposition Molecular beam epitaxy Plasma etching Sapphire Semiconductor devices Transistors
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container_title	Electronics (Basel)
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creator	Abid, Idriss Mehta, Jash Cordier, Yvon Derluyn, Joff Degroote, Stefan Miyake, Hideto Medjdoub, Farid
description	High power electronics using wide bandgap materials are maturing rapidly, and significant market growth is expected in a near future. Ultra wide bandgap materials, which have an even larger bandgap than GaN (3.4 eV), represent an attractive choice of materials to further push the performance limits of power devices. In this work, we report on the fabrication of AlN/AlGaN/AlN high-electron mobility transistors (HEMTs) using 50% Al-content on the AlGaN channel, which has a much wider bandgap than the commonly used GaN channel. The structure was grown by metalorganic chemical vapor deposition (MOCVD) on AlN/sapphire templates. A buffer breakdown field as high as 5.5 MV/cm was reported for short contact distances. Furthermore, transistors have been successfully fabricated on this heterostructure, with low leakage current and low on-resistance. A remarkable three-terminal breakdown voltage above 4 kV with an off-state leakage current below 1 μA/mm was achieved. A regrown ohmic contact was used to reduce the source/drain ohmic contact resistance, yielding a drain current density of about 0.1 A/mm.
doi_str_mv	10.3390/electronics10060635
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subjects	Aluminum gallium nitrides Aluminum nitride Breakdown Contact resistance Electric fields Electromagnetism Electronic devices Energy gap Engineering Sciences Gallium nitrides Heterostructures High electron mobility transistors Leakage current Materials selection Metalorganic chemical vapor deposition Molecular beam epitaxy Plasma etching Sapphire Semiconductor devices Transistors
title	AlGaN Channel High Electron Mobility Transistors with Regrown Ohmic Contacts
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