Journal article
Spin blockade and exchange in Coulomb-confined silicon double quantum dots
B Weber, TF Watson, MY Simmons, YHM Tan, R Rahman, G Klimeck, S Mahapatra, H Ryu, LCL Hollenberg
Nature Nanotechnology | Published : 2014
Abstract
Electron spins confined to phosphorus donors in silicon are promising candidates as qubits because of their long coherence times, exceeding seconds in isotopically purified bulk silicon. With the recent demonstrations of initialization, readout and coherent manipulation of individual donor electron spins, the next challenge towards the realization of a Si:P donor-based quantum computer is the demonstration of exchange coupling in two tunnel-coupled phosphorus donors. Spin-to-charge conversion via Pauli spin blockade, an essential ingredient for reading out individual spin states, is challenging in donor-based systems due to the inherently large donor charging energies (∼45 meV), requiring la..
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Grants
Awarded by Australian Research Council Centre of Excellence for Quantum Computation and Communication Technology
Awarded by US Army Research Office
Awarded by National Science Foundation
Funding Acknowledgements
This research was conducted by the Australian Research Council Centre of Excellence for Quantum Computation and Communication Technology (project no. CE110001027) and the US National Security Agency and US Army Research Office (contract no. W911NF-081-0527). Computational resources on nanoHUB.org, funded by the National Science Foundation (grant no. EEC-0228390), were used extensively. M.Y.S. acknowledges an ARC Laureate Fellowship.