Transport of Multispecies Ion Crystals through a Junction in a Radio-Frequency Paul Trap

We report on the first demonstration of transport of a multispecies ion crystal through a junction in a rf Paul trap. The trap is a two-dimensional surface-electrode trap with an X junction and segmented control electrodes to which time-varying voltages are applied to control the shape and position...

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Published in:Physical review letters 2023-04, Vol.130 (17), p.173202-173202, Article 173202
Main Authors: Burton, William Cody, Estey, Brian, Hoffman, Ian M, Perry, Abigail R, Volin, Curtis, Price, Gabriel
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Language:English
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container_end_page 173202
container_issue 17
container_start_page 173202
container_title Physical review letters
container_volume 130
creator Burton, William Cody
Estey, Brian
Hoffman, Ian M
Perry, Abigail R
Volin, Curtis
Price, Gabriel
description We report on the first demonstration of transport of a multispecies ion crystal through a junction in a rf Paul trap. The trap is a two-dimensional surface-electrode trap with an X junction and segmented control electrodes to which time-varying voltages are applied to control the shape and position of potential wells above the trap surface. We transport either a single ^{171}Yb^{+} ion or a crystal composed of a ^{138}Ba^{+} ion cotrapped with the ^{171}Yb^{+} ion to any port of the junction. We characterize the motional excitation by performing multiple round-trips through the junction and back to the initial well position without cooling. The final excitation is then measured using sideband asymmetry. For a single ^{171}Yb^{+} ion, transport with a 4  m/s average speed induces between 0.013±0.001 and 0.014±0.001 quanta of excitation per round-trip, depending on the exit port. For a Ba-Yb crystal, transport at the same speed induces between 0.013±0.001 and 0.030±0.002 quanta per round-trip of excitation to the in-phase axial mode. Excitation in the out-of-phase axial mode ranges from 0.005±0.001 to 0.021±0.001 quanta per round-trip.
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title Transport of Multispecies Ion Crystals through a Junction in a Radio-Frequency Paul Trap
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