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Paper detail

Transport of charged particles by adjusting rf voltage amplitudes

We propose a planar architecture for scalable quantum information processing (QIP) that includes X-junctions through which particles can move without micromotion. This is achieved by adjusting radio frequency (rf) amplitudes to move an rf null along the legs of the junction. We provide a proof-of-principle by transporting dust particles in three dimensions via adjustable rf potentials in a 3D trap. For the proposed planar architecture, we use regularization techniques to obtain amplitude settings that guarantee smooth transport through the X-junction.

preprint2011arXivOpen access
Todd KarinIsabela Le BrasAndreas KehlbergerKilian SingerNikos DaniilidisHartmut Häffner
physics.atom-phquant-ph
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Open access6 authors2 topics
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Todd KarinIsabela Le BrasAndreas KehlbergerKilian SingerNikos DaniilidisHartmut Häffner

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