S
Stephen D. March
Researcher at University of Texas at Austin
Publications - 39
Citations - 566
Stephen D. March is an academic researcher from University of Texas at Austin. The author has contributed to research in topics: Avalanche photodiode & Impact ionization. The author has an hindex of 10, co-authored 36 publications receiving 345 citations. Previous affiliations of Stephen D. March include University of Virginia & Iowa State University.
Papers
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Journal ArticleDOI
Large-Area Dry Transfer of Single-Crystalline Epitaxial Bismuth Thin Films
Emily S. Walker,Seung Ryul Na,Daehwan Jung,Stephen D. March,Joon-Seok Kim,Tanuj Trivedi,Wei Li,Li Tao,Minjoo Larry Lee,Minjoo Larry Lee,Kenneth M. Liechti,Deji Akinwande,Seth R. Bank +12 more
TL;DR: The first direct dry transfer of a single-crystalline thin film grown by molecular beam epitaxy is reported, suggesting a route to integrate other group-V epitaxial films (i.e., phosphorus) with arbitrary substrates, as well as potentially to isolate bismuthene, the atomic thin-film limit of bismuth.
Journal ArticleDOI
Broadly Tunable AlInAsSb Digital Alloys Grown on GaSb
TL;DR: In this article, the authors used spectra from AlxIn1-xAsySb1-y/GaSb type-II superlattices to determine the direct bandgap and the band offsets as a function of aluminum fraction.
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Low-noise high-temperature AlInAsSb/GaSb avalanche photodiodes for 2-μm applications
TL;DR: In this paper, the authors report the details and results for avalanche photodiodes for 2-μm detection based on a separate absorption, charge, and multiplication design in the AlxIn1-xAsySb1-y materials system.
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Avalanche Photodiodes Based on the AlInAsSb Materials System
Seth R. Bank,Joe C. Campbell,Scott J. Maddox,Min Ren,Ann-Katheryn Rockwell,Madison Woodson,Stephen D. March +6 more
TL;DR: In this article, an avalanche photodiodes (APDs) fabricated from high-aluminum-content Al x In 1− x As y Sb 1− y lattice matched to GaSb that is grown within the miscibility gap using a digital alloy approach is reported.
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Photo-induced terahertz near-field dynamics of graphene/InAs heterostructures.
Ziheng Yao,Vyacheslav Semenenko,Jiawei Zhang,Scott Mills,Xiaoguang Zhao,Xinzhong Chen,Hai Hu,Ryan Mescall,Thomas Ciavatti,Stephen D. March,Seth R. Bank,Tiger H. Tao,Xin Zhang,Vasili Perebeinos,Qing Dai,Xu Du,Mengkun Liu +16 more
TL;DR: This work reveals unique frequency-selective ultrafast dynamics probed at the near field and provides strong evidence that n-OPTE nanoscopy yields contrast that distinguishes single-layer graphene from its substrate.