Journal article
Spin-lattice relaxation times of single donors and donor clusters in silicon
YL Hsueh, H Büch, Y Tan, Y Wang, LCL Hollenberg, G Klimeck, MY Simmons, R Rahman
Physical Review Letters | Published : 2014
Abstract
An atomistic method of calculating the spin-lattice relaxation times (T1) is presented for donors in silicon nanostructures comprising of millions of atoms. The method takes into account the full band structure of silicon including the spin-orbit interaction. The electron-phonon Hamiltonian, and hence, the deformation potential, is directly evaluated from the strain-dependent tight-binding Hamiltonian. The technique is applied to single donors and donor clusters in silicon, and explains the variation of T1 with the number of donors and electrons, as well as donor locations. Without any adjustable parameters, the relaxation rates in a magnetic field for both systems are found to vary as B5, i..
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Grants
Awarded by National Stroke Foundation
Funding Acknowledgements
This research was conducted by the Australian Research Council Center of Excellence for Quantum Computation and Communication Technology (Project No. CE110001027), the US National Security Agency and the US Army Research Office under Contract No. W911NF-08-1-0527. Computational resources on nanoHUB.org, funded by the NSF Grant No. EEC-0228390, were used. M. Y. S. received support from a Laureate Fellowship.