Variable Bessel Beam Profiles Generated through Refraction by Liquid Media
Various methods have been employed to produce Bessel beams (BBs), with axicon-based techniques remaining the most efficient. Among the limitations of axicons are manufacturing defects such as oblate tips and difficulty in tuning the generated BBs. In this work, we combine the effect of a blunt-tip a...
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2023
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ph-ateneo-arc.physics-faculty-pubs-11442024-02-29T08:03:32Z Variable Bessel Beam Profiles Generated through Refraction by Liquid Media Palangyos, Dina C. Guerrero, Raphael Various methods have been employed to produce Bessel beams (BBs), with axicon-based techniques remaining the most efficient. Among the limitations of axicons are manufacturing defects such as oblate tips and difficulty in tuning the generated BBs. In this work, we combine the effect of a blunt-tip axicon with refraction using various combinations of liquid media to generate variable BB intensity profiles. The output BBs from the axicon are made to pass through a custom-built fluid chamber and magnified using a telescope system. When traversing an empty chamber, the Bessel beam core diameter is measured to be 773.8 µm at propagation distance z’ = 30 cm. The core diameter increases as the beam passes through a chamber containing different liquids as a result of an effective axicon–telescope distance produced by the indices of refraction of the pertinent fluids. Bessel beams modified by the fluid chamber maintain the properties of non-diffraction and self-healing. 2023-08-01T07:00:00Z text https://archium.ateneo.edu/physics-faculty-pubs/145 https://drive.google.com/file/d/1Zwbg4hpgDENwpQxGhG7kllZSARiaEye0/view?usp=sharing Physics Faculty Publications Archīum Ateneo axicon Bessel beam core diameter liquids refraction Atomic, Molecular and Optical Physics Physical Sciences and Mathematics Physics |
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axicon Bessel beam core diameter liquids refraction Atomic, Molecular and Optical Physics Physical Sciences and Mathematics Physics Palangyos, Dina C. Guerrero, Raphael Variable Bessel Beam Profiles Generated through Refraction by Liquid Media |
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Various methods have been employed to produce Bessel beams (BBs), with axicon-based techniques remaining the most efficient. Among the limitations of axicons are manufacturing defects such as oblate tips and difficulty in tuning the generated BBs. In this work, we combine the effect of a blunt-tip axicon with refraction using various combinations of liquid media to generate variable BB intensity profiles. The output BBs from the axicon are made to pass through a custom-built fluid chamber and magnified using a telescope system. When traversing an empty chamber, the Bessel beam core diameter is measured to be 773.8 µm at propagation distance z’ = 30 cm. The core diameter increases as the beam passes through a chamber containing different liquids as a result of an effective axicon–telescope distance produced by the indices of refraction of the pertinent fluids. Bessel beams modified by the fluid chamber maintain the properties of non-diffraction and self-healing. |
| format |
text |
| author |
Palangyos, Dina C. Guerrero, Raphael |
| author_facet |
Palangyos, Dina C. Guerrero, Raphael |
| author_sort |
Palangyos, Dina C. |
| title |
Variable Bessel Beam Profiles Generated through Refraction by Liquid Media |
| title_short |
Variable Bessel Beam Profiles Generated through Refraction by Liquid Media |
| title_full |
Variable Bessel Beam Profiles Generated through Refraction by Liquid Media |
| title_fullStr |
Variable Bessel Beam Profiles Generated through Refraction by Liquid Media |
| title_full_unstemmed |
Variable Bessel Beam Profiles Generated through Refraction by Liquid Media |
| title_sort |
variable bessel beam profiles generated through refraction by liquid media |
| publisher |
Archīum Ateneo |
| publishDate |
2023 |
| url |
https://archium.ateneo.edu/physics-faculty-pubs/145 https://drive.google.com/file/d/1Zwbg4hpgDENwpQxGhG7kllZSARiaEye0/view?usp=sharing |
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