Michelle Y. Simmons
University of New South Wales
477 Papers
2.3K Citations
Michelle Y. Simmons is an academic researcher from University of New South Wales. The author has contributed to research in topics: Silicon & Electron. The author has an hindex of 51, co-authored 458 publications. Previous affiliations of Michelle Y. Simmons include Applied Science Private University & Australian Research Council.
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Papers
Thermal dissociation and desorption of PH3 on Si(001): A reinterpretation of spectroscopic data
Hugh F. Wilson,Oliver Warschkow,Nigel A. Marks,Neil J. Curson,Steven R. Schofield,Thilo Reusch,Marian W. Radny,Phillip V. Smith,David R. McKenzie,Michelle Y. Simmons +9 more
TL;DR: In this article, a detailed mechanistic understanding of phosphine adsorption, dissociation, and desorption on the Si(001) surface was presented, and it was shown that the increased density of adsorbates leads to qualitatively different behavior due to competition between thermal dissociation and desion.
Scanning probe microscopy for silicon device fabrication
Michelle Y. Simmons,F.J. Ruess,Kuan Eng Johnson Goh,Toby Hallam,Steven R. Schofield,L. Oberbeck,Neil J. Curson,Alex R. Hamilton,M J Butcher,R. G. Clark,Thilo Reusch +10 more
TL;DR: A detailed fabrication strategy for the realisation of nano and atomic-scale devices in silicon using phosphorus as a dopant and a combination of ultra-high vacuum scanning probe microscopy and silicon molecular beam epitaxy was presented in this paper.
Strain and electric field control of hyperfine interactions for donor spin qubits in silicon
Muhammad Usman,Charles D. Hill,Rajib Rahman,Gerhard Klimeck,Michelle Y. Simmons,Sven Rogge,Lloyd C. L. Hollenberg +6 more
TL;DR: In this paper, a theoretical framework based on atomistic tight-binding theory is proposed to quantitatively determine the strain and electric-field-dependent hyperfine couplings of donors.
Radio-frequency reflectometry on large gated two-dimensional systems.
L. J. Taskinen,R. P. Starrett,T. P. Martin,Adam P. Micolich,Alex R. Hamilton,Michelle Y. Simmons,David A. Ritchie,Michael Pepper +7 more
TL;DR: By using radio-frequency reflectometry it is possible to perform sensitive, large bandwidth, electrical resistance measurements of 2D systems at millikelvin temperatures and a simple lumped element model is constructed where the gated 2DHS is described as a resistive transmission line.