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Main Authors: Lancellotti, Francesco, Welte, Stephan, Simoni, Matteo, Mordini, Carmelo, Behrle, Tanja, de Neeve, Brennan, Marinelli, Matteo, Negnevitsky, Vlad, Home, Jonathan
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2312.14006
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author Lancellotti, Francesco
Welte, Stephan
Simoni, Matteo
Mordini, Carmelo
Behrle, Tanja
de Neeve, Brennan
Marinelli, Matteo
Negnevitsky, Vlad
Home, Jonathan
author_facet Lancellotti, Francesco
Welte, Stephan
Simoni, Matteo
Mordini, Carmelo
Behrle, Tanja
de Neeve, Brennan
Marinelli, Matteo
Negnevitsky, Vlad
Home, Jonathan
contents We demonstrate low-excitation transport and separation of two-ion crystals consisting of one beryllium and one calcium ion, with a high mass ratio of $4.4$. The full separation involves transport of the mixed-species chain, splitting each ion into separate potential wells, and then transport of each ion prior to detection. We find the high mass ratio makes the protocol sensitive to mode crossings between axial and radial modes, as well as to uncontrolled radial electric fields that induce mass-dependent twists of the ion chain. By controlling these stages, we achieve excitation as low as $\bar{n}=1.40 \pm 0.08$ phonons for the calcium ion and $\bar{n}=1.44 \pm 0.09$ phonons for the beryllium ion. Separation and transport of mixed-species chains are key elements of the QCCD architecture, and may also be applicable to quantum-logic-based spectroscopy of exotic species.
format Preprint
id arxiv_https___arxiv_org_abs_2312_14006
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Low-excitation transport and separation of high-mass-ratio mixed-species ion chains
Lancellotti, Francesco
Welte, Stephan
Simoni, Matteo
Mordini, Carmelo
Behrle, Tanja
de Neeve, Brennan
Marinelli, Matteo
Negnevitsky, Vlad
Home, Jonathan
Quantum Physics
We demonstrate low-excitation transport and separation of two-ion crystals consisting of one beryllium and one calcium ion, with a high mass ratio of $4.4$. The full separation involves transport of the mixed-species chain, splitting each ion into separate potential wells, and then transport of each ion prior to detection. We find the high mass ratio makes the protocol sensitive to mode crossings between axial and radial modes, as well as to uncontrolled radial electric fields that induce mass-dependent twists of the ion chain. By controlling these stages, we achieve excitation as low as $\bar{n}=1.40 \pm 0.08$ phonons for the calcium ion and $\bar{n}=1.44 \pm 0.09$ phonons for the beryllium ion. Separation and transport of mixed-species chains are key elements of the QCCD architecture, and may also be applicable to quantum-logic-based spectroscopy of exotic species.
title Low-excitation transport and separation of high-mass-ratio mixed-species ion chains
topic Quantum Physics
url https://arxiv.org/abs/2312.14006