Hydrogenic Spin Quantum Computing in Silicon: A Digital Approach
Quantum Physics
2009-11-07 v4 Condensed Matter
Abstract
We suggest an architecture for quantum computing with spin-pair encoded qubits in silicon. Electron-nuclear spin-pairs are controlled by a dc magnetic field and electrode-switched on and off hyperfine interaction. This digital processing is insensitive to tuning errors and easy to model. Electron shuttling between donors enables multi-qubit logic. These hydrogenic spin qubits are transferable to nuclear spin-pairs, which have long coherence times, and electron spin-pairs, which are ideally suited for measurement and initialization. The architecture is scalable to highly parallel operation.
Cite
@article{arxiv.quant-ph/0206159,
title = {Hydrogenic Spin Quantum Computing in Silicon: A Digital Approach},
author = {A. J. Skinner and M. E. Davenport and B. E. Kane},
journal= {arXiv preprint arXiv:quant-ph/0206159},
year = {2009}
}
Comments
4 pages, 5 figures; refereed and published version with improved introduction