2024
DOI: 10.1364/oe.519022
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Manipulation of optical orbit-induced localized spin angular momentum using the periodic edge dislocation

Fengqi Liu,
Jingqi Song,
Naichen Zhang
et al.

Abstract: Orbit-induced localized spin angular momentum (OILS) has recently garnered significant attention. This paper introduces periodic edge dislocation (PED) into the tight focusing system. The study delves into the tight focusing characteristics of the radially polarized vortex plane beam with PED, demonstrating that PED serves as a straightforward and effective means of manipulating OILS, especially when both the orbital angular momentum and the polarization of the incident beam are fixed. Our findings indicate th… Show more

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“…A paraxial linearly polarized optical vortex beam before focusing has essentially zero spin angular momentum density, but in the focal plane after traversing a high NA lens a non-zero spin angular momentum density along the direction of propagation is generated. This property is unique to optical vortex beams, and there have been a number of studies to date on both scalar vortex beams [9,[14][15][16] and vector vortex beams [17][18][19][20][21][22][23][24][25][26][27][28]. The underlying mechanism is a form of spin-orbit interaction (SOI) of light [29], but in contrast to the well-established spinto-OAM conversion it is an orbital to spin angular momentum density conversion.…”
Section: Examples Of These Novel Optical Properties Include Transversementioning
confidence: 99%
“…A paraxial linearly polarized optical vortex beam before focusing has essentially zero spin angular momentum density, but in the focal plane after traversing a high NA lens a non-zero spin angular momentum density along the direction of propagation is generated. This property is unique to optical vortex beams, and there have been a number of studies to date on both scalar vortex beams [9,[14][15][16] and vector vortex beams [17][18][19][20][21][22][23][24][25][26][27][28]. The underlying mechanism is a form of spin-orbit interaction (SOI) of light [29], but in contrast to the well-established spinto-OAM conversion it is an orbital to spin angular momentum density conversion.…”
Section: Examples Of These Novel Optical Properties Include Transversementioning
confidence: 99%