Journal article
Two-electron spin correlations in precision placed donors in silicon
MA Broome, SK Gorman, MG House, SJ Hile, JG Keizer, D Keith, CD Hill, TF Watson, WJ Baker, LCL Hollenberg, MY Simmons
Nature Communications | NATURE PUBLISHING GROUP | Published : 2018
Open access
Abstract
Substitutional donor atoms in silicon are promising qubits for quantum computation with extremely long relaxation and dephasing times demonstrated. One of the critical challenges of scaling these systems is determining inter-donor distances to achieve controllable wavefunction overlap while at the same time performing high fidelity spin readout on each qubit. Here we achieve such a device by means of scanning tunnelling microscopy lithography. We measure anti-correlated spin states between two donor-based spin qubits in silicon separated by 16 ± 1 nm. By utilising an asymmetric system with two phosphorus donors at one qubit site and one on the other (2P-1P), we demonstrate that the exchange ..
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Awarded by Australian Research Council
Funding Acknowledgements
We thank Sven Rogge for enlightening discussions. 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-08-1-0527). M.Y.S. acknowledges an ARC Laureate Fellowship.