Author:
Kumazaki Yusuke,Ohki Toshihiro,Kotani Junji,Ozaki Shiro,Niida Yoshitaka,Minoura Yuichi,Nishimori Masato,Okamoto Naoya,Sato Masaru,Nakamura Norikazu,Watanabe Keiji
Abstract
Abstract
This paper demonstrates highly efficient GaN high-electron-mobility transistors (HEMTs) on GaN substrates with reduced interface contamination. By applying a hydrofluoric acid-based pre-growth treatment to a GaN substrate, the Si impurity concentration at the interface between the GaN substrate and the epitaxial layer can successfully be reduced. RF performance was enhanced by pre-growth treatment owing to the suppression of Si-induced parasitic loss. As a result, GaN HEMTs on GaN substrates exhibited an excellent power-added efficiency of 82.8% at a 2.45 GHz. To the best of our knowledge, this exceeds that of the previously reported discrete GaN HEMTs at around this frequency range.
Funder
Japan Ministry of the Environment
Subject
General Physics and Astronomy,General Engineering
Cited by
27 articles.
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