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Publication Citation: Minimization of ion micromotion in a Paul trap

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Author(s): D J. Berkeland; J D. Miller; James C. Bergquist; Wayne M. Itano; David J. Wineland;
Title: Minimization of ion micromotion in a Paul trap
Published: January 01, 1998
Abstract: Micromotion of ions in Paul traps has several adverse effects, including alterations of atomic transition line shapes, significatn second-order Doppler shifts in high-accuracy studies and limited confinement time in the absence of cooling. The ac electric field that cause the micromotion may also induce significant Stark shifts in atomic transitions. We describe three methods of detecting micromotion. The first relies on the change of the average ion position as the trap potentials are changed. The second monitors the amplitude of the sidebands of a narrow atomic transition, caused by the first-order Doppler shift due to the micromotion. The last technique detects the Doppler shift induced modulation of the fluorescence rate of a broad atomic transition. We discuss the detection sensitivity of each method to Doppler and Stark shifts, and show experimental results using teh last technique.
Citation: Journal of Applied Physics
Volume: 83
Pages: pp. 5025 - 5033
Research Areas: Physics