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Paper detail

A Dressed Spin Qubit in Silicon

Coherent dressing of a quantum two-level system provides access to a new quantum system with improved properties - a different and easily tuneable level splitting, faster control, and longer coherence times. In our work we investigate the properties of the dressed, donor-bound electron spin in silicon, and probe its potential for the use as quantum bit in scalable architectures. The two dressed spin-polariton levels constitute a quantum bit that can be coherently driven with an oscillating magnetic field, an oscillating electric field, by frequency modulating the driving field, or by a simple detuning pulse. We measure coherence times of $T_{2ρ}^*=2.4$ ms and $T_{2ρ}^{\rm Hahn}=9$ ms, one order of magnitude longer than those of the undressed qubit. Furthermore, the use of the dressed states enables coherent coupling of the solid-state spins to electric fields and mechanical oscillations.

preprint2016arXivOpen access
Arne LauchtRachpon KalraStephanie SimmonsJuan P. DehollainJuha T. MuhonenFahd A. MohiyaddinSolomon FreerFay E. HudsonKohei M. ItohDavid N. JamiesonJeffrey C. McCallumAndrew S. DzurakA. Morello
cond-mat.mes-hallquant-ph
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Arne LauchtRachpon KalraStephanie SimmonsJuan P. DehollainJuha T. MuhonenFahd A. MohiyaddinSolomon FreerFay E. HudsonKohei M. ItohDavid N. JamiesonJeffrey C. McCallumAndrew S. DzurakA. Morello

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