Poppy Siddiqua
University of British Columbia
15 Papers
44 Citations
Poppy Siddiqua is an academic researcher from University of British Columbia. The author has contributed to research in topics: Indium nitride & Gallium nitride. The author has an hindex of 5, co-authored 14 publications.
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Papers
Electron Transport Within III-V Nitride Semiconductors
Stephen K. O’Leary,Poppy Siddiqua,Walid A. Hadi,B. E. Foutz,Michael Shur,Lester F. Eastman +5 more
- 01 Jan 2017
TL;DR: In this article, the electron transport in III-V nitride semiconductors has been extensively studied, including the electron transfer in bulk wurtzite gallium, aluminum, and indium nitride.
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Cubic boron nitride as a material for future electron device applications: A comparative analysis
TL;DR: In this paper , the upper limits of electron transport performance of zinc blende boron-nitride-based electron devices have been investigated and compared with those associated with germanium, silicon, gallium arsenide, the 4H-phase of silicon carbide, wurtzite gallium nitride, and diamond.
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Electron transport and electron energy distributions within the wurtzite and zinc-blende phases of indium nitride: Response to the application of a constant and uniform electric field
TL;DR: In this paper, the authors compared the nature of electron transport that occurs within the wurtzite and zinc-blende phases of indium nitride in response to the application of a constant and uniform electric field.
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Electron transport within bulk cubic boron nitride: A Monte Carlo simulation analysis
TL;DR: In this paper, a semi-classical three-valley Monte Carlo electron transport simulation analysis was performed on the zinc-blende phase of bulk boron nitride.
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The steady-state and transient electron transport within bulk zinc-blende indium nitride: The impact of crystal temperature and doping concentration variations
TL;DR: In this paper, the steady-state and transient aspects of the electron transport in bulk zinc-blende indium nitride were analyzed using a semi-classical three-valley Monte Carlo simulation approach.
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