Cargando…

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...

Descripción completa

Detalles Bibliográficos
Autores principales: Dusek, Martin, Polak, Krystof, Gayde, Jean-Christophe, Sulc, Miroslav, Mergelkuhl, Dirk, Niewiem, Witold Grzegorz
Lenguaje:eng
Publicado: 2022
Materias:
Acceso en línea:http://cds.cern.ch/record/2849064
_version_ 1780976875204509696
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