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16 February 2011 Probing quantum cores of optical vortices with atoms
Jörg B. Götte, Mark R. Dennis
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Proceedings Volume 7950, Complex Light and Optical Forces V; 79500U (2011) https://doi.org/10.1117/12.876882
Event: SPIE OPTO, 2011, San Francisco, California, United States
Abstract
Optical vortices are points of zero intensity in a two dimensional, classical optical field. As first discussed by Berry and Dennis [Berry, M. V. and Dennis, M. R., "Quantum cores of optical phase singularities" Journal of Optics A 6, S178-S180 (2004)] these singularities are replaced by 'quantum cores' in a deeper level of description. In a fully quantized theory of optical fields an excited atom trapped at the singularity can emit light spontaneously and hence soften the perfect zero of an optical vortex. More recently Barnett [Barnett, S. M., "On the quantum cores of a optical vortex," Journal of Modern Optics 55, 2279-2292 (2008)] presented a more realistic analysis of quantum cores which accounts for the effect of the trapping potential on the transition dynamics inside a vortex core. Here, we revisit the scenario of emission near an optical vortex in the realistic setting of Barnett.
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Jörg B. Götte and Mark R. Dennis "Probing quantum cores of optical vortices with atoms", Proc. SPIE 7950, Complex Light and Optical Forces V, 79500U (16 February 2011); https://doi.org/10.1117/12.876882
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KEYWORDS
Ions
Optical vortices
Chemical species
Geometrical optics
Quantum physics
Absorption
Spiral phase plates
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