1. Scalable Multispecies Ion Transport in a Grid Based Surface-Electrode Trap
- Author
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Delaney, Robert D., Sletten, Lucas R., Cich, Matthew J., Estey, Brian, Fabrikant, Maya, Hayes, David, Hoffman, Ian M., Hostetter, James, Langer, Christopher, Moses, Steven A., Perry, Abigail R., Peterson, Timothy A., Schaffer, Andrew, Volin, Curtis, Vittorini, Grahame, and Burton, William Cody
- Subjects
Quantum Physics ,Physics - Atomic Physics - Abstract
We present a scalable method for the control of ion crystals in a grid-based surface electrode Paul trap and characterize it in the context of transport operations that sort and reorder multispecies crystals. By combining co-wiring of control electrodes at translationally symmetric locations in each grid site with the site-wise ability to exchange the voltages applied to two special electrodes gated by a binary input, site-dependent operations are achieved using only a fixed number of analog voltage signals and a single digital input per site. In two separate experimental systems containing nominally identical grid traps, one using $^{171}\mathrm{Yb}^{+}$-$^{138}\mathrm{Ba}^{+}$ crystals and the other $^{137}\mathrm{Ba}^{+}$-$^{88}\mathrm{Sr}^{+}$, we demonstrate this method by characterizing the conditional intra-site crystal reorder and the conditional exchange of ions between adjacent sites on the grid. Averaged across a multi-site region of interest, we measure sub-quanta motional excitation in the axial in-phase and out-of-phase modes of the crystals following these operations at exchange rates of 2.5 kHz. These conditional transport operations display all necessary components for sorting qubits, and could be extended to implement other conditional operations involving control fields such as gates, initialization, and measurement., Comment: 11 pages, 7 figures
- Published
- 2024