Shaping electrical field in heterostructure transistors

Author:

Mil'shtein S.

Publisher

Elsevier BV

Subject

General Engineering

Reference21 articles.

1. Materials and technology for high speed devices;Bean,1990

2. High breakdown GaN HEMT with overlapping gate structure;Zhang;IEEE Electron Device Lett.,2000

3. High breakdown voltage AlGaN–GaN HEMTs achieved by multiple field plates;Xing;IEEE Electron Device Lett.,2004

4. Diamond field effect transistors-concepts and challenges;Aleksov;Diamonds Relat. Mater.,2003

5. RESURF AlGaN/GaN HEMT for high voltage power switching;Karmalkar;IEEE Electron Device Lett.,2001

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1. Modeling and Design of Low Threshold Voltage D-mode GaN HEMT;2022 IEEE 31st Microelectronics Design & Test Symposium (MDTS);2022-05-23

2. Fabrication of double recess structure by single lithography step using silicon-nitride-assisted process in pseudomorphic HEMTs;Microelectronic Engineering;2014-09

3. 3D modeling of dual-gate FinFET;Nanoscale Research Letters;2012-11-13

4. Is HEMT operating in 2D mode?;Microelectronics Journal;2009-03

5. Progress of quantum electronics and the future of wireless technologies;Microelectronics Journal;2008-03

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