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6 July 2015 Radially polarized cylindrical vector beams from a monolithic microchip laser
Darryl Naidoo, Michael Fromager, Kamel Äit-Ameur, Andrew Forbes
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Optical Engineering, Vol. 54, Issue 11, 111304 (July 2015). https://doi.org/10.1117/1.OE.54.11.111304
Abstract
Monolithic microchip lasers consist of a thin slice of laser crystal where the cavity mirrors are deposited directly onto the end faces. While this property makes such lasers very compact and robust, it prohibits the use of intracavity laser beam shaping techniques to produce complex light fields. We overcome this limitation and demonstrate the selection of complex light fields in the form of vector-vortex beams directly from a monolithic microchip laser. We employ pump reshaping and a thermal gradient across the crystal surface to control both the intensity and polarization profile of the output mode. In particular, we show laser oscillation on a superposition of Laguerre–Gaussian modes of zero radial and nonzero azimuthal index in both the scalar and vector regimes. Such complex light fields created directly from the source could find applications in fiber injection, materials processing and in simulating quantum processes.
© 2015 Society of Photo-Optical Instrumentation Engineers (SPIE) 0091-3286 /2015/$25.00 © 2015 SPIE
Citation Download Citation
Darryl Naidoo, Michael Fromager, Kamel Äit-Ameur, and Andrew Forbes "Radially polarized cylindrical vector beams from a monolithic microchip laser," Optical Engineering 54(11), 111304 (6 July 2015). https://doi.org/10.1117/1.OE.54.11.111304
Published: 6 July 2015
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Cited by 16 scholarly publications.
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KEYWORDS
Laser crystals
Crystals
Polarization
Beam shaping
Linear polarizers
Polarizers
Superposition
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