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Detection of structured laser beam centroid and its use for alignment
A Structured Laser Beam (SLB) [1] is a pseudo-non- diffractive optical beam. Its transverse profile is similar to a Bessel Beam (BB), hence its bright central core is sur- rounded by concentric circles. SLB can propagate with very low divergence over long distances. Propagation over 200 m has been t...
Autores principales: | , , , , , |
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Lenguaje: | eng |
Publicado: |
2022
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Materias: | |
Acceso en línea: | http://cds.cern.ch/record/2849064 |
_version_ | 1780976875204509696 |
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author | Dusek, Martin Polak, Krystof Gayde, Jean-Christophe Sulc, Miroslav Mergelkuhl, Dirk Niewiem, Witold Grzegorz |
author_facet | Dusek, Martin Polak, Krystof Gayde, Jean-Christophe Sulc, Miroslav Mergelkuhl, Dirk Niewiem, Witold Grzegorz |
author_sort | Dusek, Martin |
collection | CERN |
description | A Structured Laser Beam (SLB) [1] is a pseudo-non- diffractive optical beam. Its transverse profile is similar to a Bessel Beam (BB), hence its bright central core is sur- rounded by concentric circles. SLB can propagate with very low divergence over long distances. Propagation over 200 m has been tested with a divergence under 0.01 mrad. Therefore, the central core can still fit on the camera chip and its centroid position can be accurately detected, which is not the case for well-known Gaussian beams (GB). These properties make the SLB a promising candidate for long- distance alignment applications because it could be used as a reference line. The alignment accuracy is affected by the algorithms for centroid detection. In this work, different algorithms for centroid position detection are evaluated and com- pared on simulated data, namely the best fitting of a well- parameterized Bessel function and different alternations of the center of gravity methods. In addition to simulations, real data are obtained during experiments using a high- precision motorized stage to induce a known translation of a sensor resulting in misalignment. This misalignment is compared with the misalignment detected by an SLB sensor. Therefore, the potential of SLB for long-distance alignment is explored. |
id | cern-2849064 |
institution | Organización Europea para la Investigación Nuclear |
language | eng |
publishDate | 2022 |
record_format | invenio |
spelling | cern-28490642023-04-19T11:55:16Zhttp://cds.cern.ch/record/2849064engDusek, MartinPolak, KrystofGayde, Jean-ChristopheSulc, MiroslavMergelkuhl, DirkNiewiem, Witold GrzegorzDetection of structured laser beam centroid and its use for alignmentEngineeringA Structured Laser Beam (SLB) [1] is a pseudo-non- diffractive optical beam. Its transverse profile is similar to a Bessel Beam (BB), hence its bright central core is sur- rounded by concentric circles. SLB can propagate with very low divergence over long distances. Propagation over 200 m has been tested with a divergence under 0.01 mrad. Therefore, the central core can still fit on the camera chip and its centroid position can be accurately detected, which is not the case for well-known Gaussian beams (GB). These properties make the SLB a promising candidate for long- distance alignment applications because it could be used as a reference line. The alignment accuracy is affected by the algorithms for centroid detection. In this work, different algorithms for centroid position detection are evaluated and com- pared on simulated data, namely the best fitting of a well- parameterized Bessel function and different alternations of the center of gravity methods. In addition to simulations, real data are obtained during experiments using a high- precision motorized stage to induce a known translation of a sensor resulting in misalignment. This misalignment is compared with the misalignment detected by an SLB sensor. Therefore, the potential of SLB for long-distance alignment is explored.CERN-BE-2023-012oai:cds.cern.ch:28490642022-10-31 |
spellingShingle | Engineering Dusek, Martin Polak, Krystof Gayde, Jean-Christophe Sulc, Miroslav Mergelkuhl, Dirk Niewiem, Witold Grzegorz Detection of structured laser beam centroid and its use for alignment |
title | Detection of structured laser beam centroid and its use for alignment |
title_full | Detection of structured laser beam centroid and its use for alignment |
title_fullStr | Detection of structured laser beam centroid and its use for alignment |
title_full_unstemmed | Detection of structured laser beam centroid and its use for alignment |
title_short | Detection of structured laser beam centroid and its use for alignment |
title_sort | detection of structured laser beam centroid and its use for alignment |
topic | Engineering |
url | http://cds.cern.ch/record/2849064 |
work_keys_str_mv | AT dusekmartin detectionofstructuredlaserbeamcentroidanditsuseforalignment AT polakkrystof detectionofstructuredlaserbeamcentroidanditsuseforalignment AT gaydejeanchristophe detectionofstructuredlaserbeamcentroidanditsuseforalignment AT sulcmiroslav detectionofstructuredlaserbeamcentroidanditsuseforalignment AT mergelkuhldirk detectionofstructuredlaserbeamcentroidanditsuseforalignment AT niewiemwitoldgrzegorz detectionofstructuredlaserbeamcentroidanditsuseforalignment |