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Hauptverfasser: Munoz, Rodrigo, Nuschke, Phil, Meiners, Teresa, Kaune, Brigitte, Ospelkaus, Christian
Format: Preprint
Veröffentlicht: 2026
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2605.25118
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author Munoz, Rodrigo
Nuschke, Phil
Meiners, Teresa
Kaune, Brigitte
Ospelkaus, Christian
author_facet Munoz, Rodrigo
Nuschke, Phil
Meiners, Teresa
Kaune, Brigitte
Ospelkaus, Christian
contents We develop a theoretical and numerical framework to analyze the effect of transport on the motional states of ions in a trapped-ion quantum processor. We decompose the shuttling protocol into primitive operations and characterize these in terms of their heating performance. Instead of having to simulate the whole transport protocol for each complete ion trajectory, the method allows us to determine the heating properties of each primitive operation separately and obtain the global result through an algebraic expression. We demonstrate our method by applying it to an 8-qubit quantum processor design based on linear transport and swap operations for all-to-all connectivity. We show how to incorporate the price of motional operations at the level of the compiler as a cost function.
format Preprint
id arxiv_https___arxiv_org_abs_2605_25118
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle A framework for the benchmarking of transport-induced excitations in shuttling-based ion-trap quantum processors
Munoz, Rodrigo
Nuschke, Phil
Meiners, Teresa
Kaune, Brigitte
Ospelkaus, Christian
Quantum Physics
We develop a theoretical and numerical framework to analyze the effect of transport on the motional states of ions in a trapped-ion quantum processor. We decompose the shuttling protocol into primitive operations and characterize these in terms of their heating performance. Instead of having to simulate the whole transport protocol for each complete ion trajectory, the method allows us to determine the heating properties of each primitive operation separately and obtain the global result through an algebraic expression. We demonstrate our method by applying it to an 8-qubit quantum processor design based on linear transport and swap operations for all-to-all connectivity. We show how to incorporate the price of motional operations at the level of the compiler as a cost function.
title A framework for the benchmarking of transport-induced excitations in shuttling-based ion-trap quantum processors
topic Quantum Physics
url https://arxiv.org/abs/2605.25118