3D micro-optical elements for generation of tightly focused vortex beams

Orbital angular momentum carrying light beams are usedfor optical trapping and manipulation. This emerging trend provides new challenges involving device miniaturization for improved performance and enhanced functionality at the microscale. Here we discus a new fabrication method based on combining...

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Bibliographic Details
Main Authors: Balčytis, Armandas, Hakobyan, Davit, Gabalis, Martynas, Žukauskas, Albertas, Urbonas, Darius, Malinauskas, Mangirdas, Petruškevičius, Raimondas, Brasselet, Etienne, Juodkazis, Saulius
Format: Conference Proceeding
Language:English
Subjects:
Angular momentum
Computer simulation
Current carriers
Electron beams
Finite difference method
Ion beams
Laser beams
Light beams
Mathematical models
Miniaturization
Numerical aperture
Optical components
Optical trapping
Patterning
Photopolymerization
Predictions
Vortices
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Summary:Orbital angular momentum carrying light beams are usedfor optical trapping and manipulation. This emerging trend provides new challenges involving device miniaturization for improved performance and enhanced functionality at the microscale. Here we discus a new fabrication method based on combining the additive 3D structuring capability laser photopolymerization and the substractive sub-wavelength resolution patterning of focused ion beam lithography to produce micro-optical elements capable of compound functionality. As a case in point of this approach binary spiral zone pattern based high numerical aperture micro-lenses capable of generating topological charge carrying tightly focused vortex beams in a single wavefront transformation step are presented. The devices were modelled using finite-difference time-domain simulations, and the theoretical predictions were verified by optically characterizing the propagation properties of light transmitted through the fabricated structures. The resulting devices had focal lengths close to the predicted values of f = 18 µm and f = 13 µm as well as topological charge ℓ dependent vortex focal spot sizes of ~ 1:3 µm and ~ 2:0 µm for ℓ = 1 and ℓ = 2 respectively.
ISSN:2261-236X
2274-7214
2261-236X
DOI:10.1051/matecconf/20153203002