Journal article

Orbital Stark effect and quantum confinement transition of donors in silicon

R Rahman, GP Lansbergen, SH Park, J Verduijn, G Klimeck, S Rogge, LCL Hollenberg

Physical Review B Condensed Matter and Materials Physics | Published : 2009

Abstract

Adiabatic shuttling of single impurity bound electrons to gate-induced surface states in semiconductors has attracted much attention in recent times, mostly in the context of solid-state quantum computer architecture. A recent transport spectroscopy experiment for the first time was able to probe the Stark shifted spectrum of a single donor in silicon buried close to a gate. Here, we present the full theoretical model involving large-scale quantum mechanical simulations that was used to compute the Stark shifted donor states in order to interpret the experimental data. Use of atomistic tight-binding technique on a domain of over a million atoms helped not only to incorporate the full band st..

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University of Melbourne Researchers

Grants

Awarded by Army Research Office (ARO)


Funding Acknowledgements

This work was supported by the Australian Research Council, the Australian Government, and the U. S. National Security Agency (NSA) and the Army Research Office (ARO) under Contract No. W911NF-08-1-0527. Part of the development of NEMO-3D was initially performed at JPL, Caltech under a contract with NASA. NCN/nanohub.org computational resources were used in this work. S. R. also acknowledges the support of Dutch Foundation for Fundamental Research on Matter (FOM) and the EU FP7 project AFSID.