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This work aims to enhance the characterization of electron beams using a new interferometric technique.

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January 22, 2026Open Access

Exploiting Non Redundant Aperture Interferometry as a Diagnostics Tool for Synchrotron Light Characterization

Key Points

This work aims to enhance the characterization of electron beams using a new interferometric technique.
Introduced a non-redundant aperture mask for interferometry.
Utilized a self-calibration approach for data collection.
Developed a new data analysis method based on closure amplitudes.
Applied the technique to wavefront sensing and halo resolution.
Successfully characterized the two-dimensional shape of electron beams from single-shot interferograms.
Demonstrated the removal of self-calibration through closure amplitude analysis.
Showed applicability to resolving beam halos alongside Gaussian beam cores.

Abstract

We recently introduced a novel interferometric method inspired by radio astronomy, utilizing a Non-Redundant Aperture (NRA) mask with self-calibration to fully characterize the two dimensional transverse shape of electron beams from a single-shot interferogram. This paper reports the latest advancements in this technique, including a new data analysis approach based on closure amplitudes, which removes the need for self-calibration. We also demonstrate the method’s applicability to wavefront sensing, and we explore its potential for resolving beam halos superimposed on well-defined Gaussian beam core.

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Torino et al. (Tue,) studied this question.

synapsesocial.com/papers/6971bfdff17b5dc6da021f23 https://doi.org/https://doi.org/10.18429/jacow-ibic2025-tupmo09

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