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Coherent Diabatic Ion Transport and Separation in a Multizone Trap Array

2012; American Physical Society; Volume: 109; Issue: 8 Linguagem: Inglês

10.1103/physrevlett.109.080502

1092-0145

R. Bowler, John Gaebler, Yiheng Lin, T. R. Tan, David Hanneke, J. D. Jost, Jonathan Home, D. Leibfried, D. J. Wineland,

Quantum optics and atomic interactions

We investigate the motional dynamics of single and multiple ions during transport between and separation into spatially distinct locations in a multi-zone linear Paul trap. A single 9Be+ ion in a 2 MHz harmonic well located in one zone was laser-cooled to near its ground state of motion and transported 370 micrometers by moving the well to another zone. This was accomplished in 8 microseconds, corresponding to 16 periods of oscillation. Starting from a state with n=0.1 quanta, during transport the ion was excited to a displaced coherent state with n=1.6 quanta but on completion was returned close to its motional ground state with n=0.2. Similar results were achieved for the transport of two ions. We also separated chains of up to 9 ions from one potential well to two distinct potential wells. With two ions this was accomplished in 55 microseconds, with final excitations of about 2 quanta for each ion. Fast coherent transport and separation can significantly reduce the time overhead in certain architectures for scalable quantum information processing with trapped ions.