Evolution of a fractional-charge optical vortex upon free-space propagation

Evolution of a fractional-charge optical vortex upon free-space propagation

Previously, it has been demonstrated theoretically (J. Opt. 6, 259 (2004)) and experimentally (Opt Express 19, 5760 (2011)) that upon the free-space propagation, an initial fractional-charge optical vortex acquires an integer topological charge (TС) equal to the nearest smaller integer if the fracti...

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Bibliographic Details
Published in:Optik (Stuttgart) Vol. 261; p. 169158
Main Authors: Kotlyar, V.V., Nalimov, A.G.
Format: Journal Article
Language:English
Published: Elsevier GmbH 01-07-2022
Subjects:
Far field
Fractional topological charge
Near field
Optical vortex
Near field
Far field
Fractional topological charge
Optical vortex
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Summary:Previously, it has been demonstrated theoretically (J. Opt. 6, 259 (2004)) and experimentally (Opt Express 19, 5760 (2011)) that upon the free-space propagation, an initial fractional-charge optical vortex acquires an integer topological charge (TС) equal to the nearest smaller integer if the fractional part is less than 0.5, otherwise becoming equal to the nearest larger integer. In this work, we demonstrate by the numerical modeling that as an initial fractional-charge optical vortex propagates in free space, the TC changes to the nearest smaller or larger integer at a fractional part threshold of 0.12. The fact is that an additional singularity center is born on the beam periphery where the field intensity is near-zero (one millionth part of the maximum), meaning that it cannot be experimentally detected but can be numerically simulated.
ISSN:0030-4026
1618-1336
DOI:10.1016/j.ijleo.2022.169158