On the orbit-induced spin density of tightly focused optical vortex beams: ellipticity and helicity

Forbes, Kayn A

doi:10.1088/2040-8986/ad5f40

J. Opt.

2024

DOI: 10.1088/2040-8986/ad5f40

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On the orbit-induced spin density of tightly focused optical vortex beams: ellipticity and helicity

Kayn A Forbes

Abstract: It has recently been established that a linearly-polarized optical vortex possesses spin angular momentum density in the direction of propagation (longitudinal spin) under tight-focusing. The helicity of light has long been associated with longitudinal spin angular momentum. Here we show that the longitudinal spin density of linearly-polarized vortices is anomalous because it has no associated helicity. It was also recently determined that the polarization-independent helicity of tightly-focused optical vortic… Show more

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Cited by 2 publications

References 41 publications

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Arrays of photonic wheels formed by transverse spin in tight focusing

Deng,

Shu

2025

Optics Communications

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Arrays of photonic wheels formed by transverse spin in tight focusing

Deng,

Shu

2025

Optics Communications

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Spin angular momentum and optical chirality of Poincaré vector vortex beams

Forbes

2024

J. Opt.

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The optical chirality and spin angular momentum of structured scalar vortex beams has been intensively studied in recent years. The pseudoscalar topological charge $\ell$ of these beams is responsible for their unique properties. Constructed from a superposition of scalar vortex beams with topological charges $\ell_\text{A}$ and $\ell_\text{B}$, cylindrical vector vortex beams are higher-order Poincar'e modes which possess a spatially inhomogeneous polarization distribution. Here we highlight the highly tailorable and exotic spatial distributions of the optical spin and chirality densities of these higher-order structured beams under both paraxial (weak focusing) and non-paraxial (tight focusing) conditions. Our analytical theory can yield the spin angular momentum and optical chirality of each point on any higher-order or hybrid-order Poincar'e sphere. It is shown that the tunable Pancharatnam topological charge $\ell_{\text{P}} = (\ell_\text{A} + \ell_\text{B})/2$ and polarization index $m = (\ell_\text{B} -\ell_\text{A})/2$ of the vector vortex beam plays a decisive role in customizing their spin and chirality spatial distributions. We also provide the correct analytical equations to describe a focused, non-paraxial scalar Bessel beam.

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On the orbit-induced spin density of tightly focused optical vortex beams: ellipticity and helicity

Cited by 2 publications

References 41 publications

Arrays of photonic wheels formed by transverse spin in tight focusing

Arrays of photonic wheels formed by transverse spin in tight focusing

Spin angular momentum and optical chirality of Poincaré vector vortex beams

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