E
Evan H. C. Parker
Researcher at University of Warwick
Publications - 219
Citations - 2868
Evan H. C. Parker is an academic researcher from University of Warwick. The author has contributed to research in topics: Silicon & Electron mobility. The author has an hindex of 27, co-authored 219 publications receiving 2805 citations.
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Journal ArticleDOI
Evidence for quantum confinement in the photoluminescence of porous Si and SiGe
Spyros Gardelis,J. S. Rimmer,Philip Dawson,Bruce Hamilton,R. A. Kubiak,Terry E. Whall,Evan H. C. Parker +6 more
TL;DR: In this paper, the authors used anodization techniques to process porous surface regions in p-type Czochralski Si and in P-type Si0.85Ge0.15 epitaxial layers grown by molecular beam epitaxy.
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On the practical applications of MBE surface phase diagrams
TL;DR: In this article, surface phase diagrams for both GaAs and InAs are presented, and the correlation between material properties, surface reconstruction and growth conditions is discussed for both GAAs and homo- and heteroepitaxial InAs.
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Ultra-high hole mobility exceeding one million in a strained germanium quantum well
A. Dobbie,Maksym Myronov,Robert H. Morris,A. H. A. Hassan,M. J. Prest,Vishal Shah,Evan H. C. Parker,Terry E. Whall,David R. Leadley +8 more
TL;DR: In this article, the authors reported a Hall mobility of one million in a germanium two-dimensional hole gas at a carrier sheet density of 3'×'1011'cm−2 at 12'K. This mobility is nearly an order of magnitude higher than any previously reported.
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SiGe heterostructures for FET applications
Terence Whall,Evan H. C. Parker +1 more
TL;DR: In this article, the electrical properties of this semiconductor system and the associated materials challenges are discussed, and some of the more important device applications are reviewed, as well as the application requirements of these devices.
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Mobility spectrum computational analysis using a maximum entropy approach.
S. Kiatgamolchai,Maksym Myronov,O. A. Mironov,V. G. Kantser,Evan H. C. Parker,Terry E. Whall +5 more
TL;DR: A method to calculate a smooth electrical conductivity versus mobility plot ("mobility spectrum") from the classical magnetoconductivity tensor in heterogeneous structures with the help of a "maximum entropy principle" has been developed.