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@inproceedings{ateş:ibic2021-tupp07,
author = {A. Ateş and G. Blank and U. Ratzinger and C. Wagner},
title = {{Development of a Multi-Camera System for Tomography in Beam Diagnostics}},
booktitle = {Proc. IBIC'21},
pages = {201--204},
eid = {TUPP07},
language = {english},
keywords = {detector, vacuum, alignment, software, synchrotron},
venue = {Pohang, Rep. of Korea},
series = {International Beam Instrumentation Conference},
number = {10},
publisher = {JACoW Publishing, Geneva, Switzerland},
month = {10},
year = {2021},
issn = {2673-5350},
isbn = {978-3-95450-230-1},
doi = {10.18429/JACoW-IBIC2021-TUPP07},
url = {https://jacow.org/ibic2021/papers/tupp07.pdf},
note = {https://doi.org/10.18429/JACoW-IBIC2021-TUPP07},
abstract = {{Embedded visual systems in industry lead to advancements of single board computers and single board cameras. Due to the lower power consumption and high flexibility of these miniature devices, a multi-camera system can be developed more effectively. A prototype of a beam-induced residual gas fluorescence monitor (BIF) has been developed and successfully tested at the Institute of Applied Physics (IAP) of the Goethe University Frankfurt. This BIF is based on a single-board camera inserted into the vacuum. The previous promising results led to the development of a multi-camera system with 11 cameras. One of the advantages of integrating such a system into the vacuum is the small form factor, allowing this detector to be integrated in regions that are difficult to access. The overall goal is to study the beam with tomography algorithms at a low energy beam transport section. We hope to reconstruct an arbitrary beam profile intensity distribution without assuming a gaussian beam.}},
}