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Stephen J. Pearton
Researcher at University of Florida
Publications - 1988
Citations - 62995
Stephen J. Pearton is an academic researcher from University of Florida. The author has contributed to research in topics: Dry etching & Etching (microfabrication). The author has an hindex of 104, co-authored 1913 publications receiving 58669 citations. Previous affiliations of Stephen J. Pearton include Kyungpook National University & University of Southern California.
Papers
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Journal ArticleDOI
Simulation of npn and pnp AlGaN/GaN heterojunction bipolar transistors performances: limiting factors and optimum design
C. Monier,Fan Ren,Jung Han,P.C. Chang,Randy J. Shul,K. P. Lee,A. P. Zhang,Albert G. Baca,Stephen J. Pearton +8 more
TL;DR: In this article, the performance of npn and pnp AlGaN/GaN heterojunction bipolar transistors have been investigated by using a drift-diffusion transport model.
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Damage introduction in InGaP by electron cyclotron resonance Ar plasmas
TL;DR: In this article, changes in sheet resistance of n and p-type InGaP exposed to electron cyclotron resonance Ar plasmas have been used to measure the introduction of ion-induced damage.
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Rapid thermal processing of iii-nitrides
J. Hong,J. W. Lee,Catherine Vartuli,C. R. Abernathy,J. D. MacKenzie,S. M. Donovan,Stephen J. Pearton,John C. Zolper +7 more
TL;DR: In this paper, the authors compared two methods for protection against surface dissociation of GaN, AlN, InN, GaN and AlN in a SiC-coated graphite susceptor and provided a N2 overpressure for the nitride samples within the susceptor.
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Magnesium oxide gate dielectrics grown on GaN using an electron cyclotron resonance plasma
Brent P. Gila,A. H. Onstine,Jihyun Kim,K. K. Allums,Fan Ren,C. R. Abernathy,Stephen J. Pearton +6 more
TL;DR: In this article, X-ray diffraction (XRD) indicated that the magnesium oxide was single crystal for TSUB=350°C and mostly poly-crystalline for SUB=100°C.
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Large-area suspended graphene on GaN nanopillars
TL;DR: In this article, a large area suspended graphene on GaN nanopillars was successfully suspended over large areas without ripples and corrugations, and the heat transfer was effective even when the contact area between the suspended graphene and the supporting substrate was small, due to the high thermal conductivities of graphene and GaN.