Trapped-ion quantum information processing may benefit from qubits encoded in isotopes that are practically available in only small quantities, e.g., due to low natural abundance or radioactivity. Laser ablation provides a method of controllably liberating neutral atoms or ions from low-volume targets, but energetic ablation products can be difficult to confine in the small ion-electrode distance, micron-scale microfabricated traps amenable to high-speed, high-fidelity manipulation of ion arrays. Here, we investigate ablation-based ion loading into surface-electrode traps of different sizes to test a model describing ion loading probability as a function of effective trap volume and other trap parameters. We characterize loading of ablated barium from a metallic source in two cryogenic surface-electrode traps with 730 and 50 μm ion-electrode distances. Our loading rate agrees with a predictive analytical model, providing insight for the confinement of limited-quantity species of interest for quantum computing, simulation, and sensing.
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Sedlacek, J. A. ; Stuart, J. ; Slichter, D. H. ; Bruzewicz, C. D. ; McConnell, R. ; Sage, J. M. ; Chiaverini, J. ( , Physical Review A)
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Moody, Galan ; Sorger, Volker ; Juodawlkis, Paul ; Loh, William ; Sorace-Agaskar, Cheryl ; Jones, Alex E. ; Balram, Krishna ; Matthews, Jonathan ; Laing, Anthony ; Davanco, Marcelo ; et al ( , Journal of Physics: Photonics)
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Allcock, D. T. C. ; Campbell, W. C. ; Chiaverini, J. ; Chuang, I. L. ; Hudson, E. R. ; Moore, I. D. ; Ransford, A. ; Roman, C. ; Sage, J. M. ; Wineland, D. J. ( , Applied Physics Letters)