Journal article
Strain and electric field control of hyperfine interactions for donor spin qubits in silicon
M Usman, CD Hill, R Rahman, G Klimeck, MY Simmons, S Rogge, LCL Hollenberg
Physical Review B Condensed Matter and Materials Physics | Published : 2015
Abstract
Control of hyperfine interactions is a fundamental requirement for quantum computing architecture schemes based on shallow donors in silicon. However, at present, there is lacking an atomistic approach including critical effects of central-cell corrections and nonstatic screening of the donor potential capable of describing the hyperfine interaction in the presence of both strain and electric fields in realistically sized devices. We establish and apply a theoretical framework, based on atomistic tight-binding theory, to quantitatively determine the strain and electric-field-dependent hyperfine couplings of donors. Our method is scalable to millions of atoms, and yet captures the strain effe..
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Awarded by ARC Center of Excellence for Quantum Computation and Communication Technology
Awarded by U.S. Army Research Office
Funding Acknowledgements
This work is funded by the ARC Center of Excellence for Quantum Computation and Communication Technology (CE1100001027), and in part by the U.S. Army Research Office (W911NF-08-1-0527). M.Y.S. acknowledges an ARC Laureate Fellowship. Computational resources are acknowledged from NCN/Nanohub. S.R. acknowledges ARC Future Fellowship.