Bowler, R.
, Gaebler, J.
, Lin, Y.
, , T.
, Hanneke, D.
, Jost, J.
, Home, J.
, Leibfried, D.
and Wineland, D.
(2012),
Coherent Diabatic Ion Transport and Separation in a Multizone Trap Array, Physical Review Letters, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=911519
(Accessed April 26, 2024)
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Coherent Diabatic Ion Transport and Separation in a Multizone Trap Array
Published
Author(s)
, , , , , , J. Home, ,
Abstract
We investigate ion motion dynamics during the transport between and separation into spatially distinct trap locations in a multi-zone trap array. We laser-cool a single $\ensuremath{^{9}{\rm {Be}^{+}}}$ ion held in a linear Paul trap to near its ground state of motion in a 2~MHz harmonic well and transport it across $370\,\mu m$ in 16 periods of oscillation. During transport the ion is excited to a displaced coherent state with $\bar{n}\thickapprox1.6$~quanta but returns close to its motional ground state with $\bar{n}\thickapprox0.2$ quanta. We achieve similar results for two ions. We also separate multiple ions from one potential well to two distinct potential wells. With two ions this is accomplished in $55\,\mu s$, with final excitations of $\bar{n}\thickapprox2$ quanta for each ion. Fast coherent transport and separation can reduce the time overhead in certain architectures for quantum information processing with trapped ions.Citation
Physical Review Letters
Pub Type
Journals
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Keywords
atom dynamics, atom trapping, ion traps, laser cooling, quantum state engineering, quantum entanglement, quantum information
Citation
Created August 24, 2012, Updated February 19, 2017