We present a device based on liquid crystal and via Pancharatnam-Berry phase to generate Poincare beams by the coherent collinear superposition of two Free-Form Dark Hollow (FFDH) beams. We generate beams with spatially-variable polarization encoded on their cross section showing disclinations in the azimuth orientation and mappings of the Poincare sphere onto the transverse mode. We report generated beams characterized by nonuniform rotation rate of the local polarization azimuth in different polarization configurations, radial and azimuthal, lemon and star disclinations, and other richer and complex higher-order disclinations, by using tailored space-varying-axis plates based on liquid crystals.

Device for generating modulated Poincaré beams / Darvehi, P.; Vicuna Hernandez, V.; Marrucci, L.; Piedipalumbo, E.; Santamato, E.; Piccirillo, B.. - 12078:(2021), p. 3. (Intervento presentato al convegno International Optical Design Conference 2021 tenutosi a usa nel 2021) [10.1117/12.2603612].

Device for generating modulated Poincaré beams

Darvehi P.;Vicuna Hernandez V.;Marrucci L.;Piedipalumbo E.;Santamato E.;Piccirillo B.
2021

Abstract

We present a device based on liquid crystal and via Pancharatnam-Berry phase to generate Poincare beams by the coherent collinear superposition of two Free-Form Dark Hollow (FFDH) beams. We generate beams with spatially-variable polarization encoded on their cross section showing disclinations in the azimuth orientation and mappings of the Poincare sphere onto the transverse mode. We report generated beams characterized by nonuniform rotation rate of the local polarization azimuth in different polarization configurations, radial and azimuthal, lemon and star disclinations, and other richer and complex higher-order disclinations, by using tailored space-varying-axis plates based on liquid crystals.
2021
9781510650305
9781510650312
Device for generating modulated Poincaré beams / Darvehi, P.; Vicuna Hernandez, V.; Marrucci, L.; Piedipalumbo, E.; Santamato, E.; Piccirillo, B.. - 12078:(2021), p. 3. (Intervento presentato al convegno International Optical Design Conference 2021 tenutosi a usa nel 2021) [10.1117/12.2603612].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/868808
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