What question did this study set out to answer?

This research aims to improve simulations for transverse wiggler manipulation by incorporating realistic field maps and analyzing error effects.

February 2, 2026Open Access

Start-to-end simulation study for transverse wiggler-based manipulation experiment

Key Points

This research aims to improve simulations for transverse wiggler manipulation by incorporating realistic field maps and analyzing error effects.
Generated wiggler fields using magnetostatic simulations.
Conducted start-to-end particle tracking simulations using realistic field data.
Evaluated phase space responses to various jitter and error sources.
Confirmed the feasibility of transverse wiggler-based correlation control under realistic conditions.
Identified specific jitter and error sources that significantly impact experimental outcomes.

Abstract

We present a simulation study to support the planning of experimental demonstrations of transverse wiggler-based correlation control. While previous simulations confirmed the feasibility of this approach, they did not incorporate realistic field maps of the transverse wigglers. In addition, the impact of various jitter and error sources—key concerns for experimental implementation—has not been analyzed. In this study, wiggler fields are generated through magnetostatic simulations and incorporated into start-to-end particle tracking simulations. The phase space responses to different jitter and error sources are also evaluated.

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Ha et al. (Thu,) studied this question.

synapsesocial.com/papers/6980fbe1c1c9540dea80da96 https://doi.org/https://doi.org/10.18429/jacow-napac2025-tup093

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