Optical trapping and binding in skyrmionic beams

Simon Hanna; Michael J O'Donnell

doi:10.1117/12.3043472

Abstract

We explore optical trapping and binding in skyrmionic optical beams generated by combining pairs of focused Laguerre-Gaussian with different orders and orthogonal polarisations, using computer simulations. Typically, the resultant focal region of the skyrmionics beam is annular but with intensity and polarisation varying around the ring. Dielectric particles are trapped in the ring but orbit at a speed that varies with the intensity variation. Absorbing particles will additionally couple to the changing polarisation and may experience a spin-torque as they orbit. In this study we construct skirmionic beams in a computer model, and analyse the coupling of spin and orbital angular momentum to different types of particle. The binding and dynamics of multiple particles trapped in skyrmionics beams will also be examined.

Original language	English
DOIs	https://doi.org/10.1117/12.3043472
Publication status	Published - 30 Jan 2025
Event	SPIE Photonics West: Complex Light and Optical Forces XIX - Duration: 25 Jan 2025 → 30 Jan 2025 https://www.spiedigitallibrary.org/conference-proceedings-of-spie/browse/SPIE-Photonics-West/2025

Conference

Conference	SPIE Photonics West
Period	25/01/25 → 30/01/25
Internet address	https://www.spiedigitallibrary.org/conference-proceedings-of-spie/browse/SPIE-Photonics-West/2025

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title = "Optical trapping and binding in skyrmionic beams",

abstract = "We explore optical trapping and binding in skyrmionic optical beams generated by combining pairs of focused Laguerre-Gaussian with different orders and orthogonal polarisations, using computer simulations. Typically, the resultant focal region of the skyrmionics beam is annular but with intensity and polarisation varying around the ring. Dielectric particles are trapped in the ring but orbit at a speed that varies with the intensity variation. Absorbing particles will additionally couple to the changing polarisation and may experience a spin-torque as they orbit. In this study we construct skirmionic beams in a computer model, and analyse the coupling of spin and orbital angular momentum to different types of particle. The binding and dynamics of multiple particles trapped in skyrmionics beams will also be examined.",

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note = "SPIE Photonics West : Complex Light and Optical Forces XIX ; Conference date: 25-01-2025 Through 30-01-2025",

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TY - CONF

T1 - Optical trapping and binding in skyrmionic beams

AU - Hanna, Simon

AU - O'Donnell, Michael J

PY - 2025/1/30

Y1 - 2025/1/30

N2 - We explore optical trapping and binding in skyrmionic optical beams generated by combining pairs of focused Laguerre-Gaussian with different orders and orthogonal polarisations, using computer simulations. Typically, the resultant focal region of the skyrmionics beam is annular but with intensity and polarisation varying around the ring. Dielectric particles are trapped in the ring but orbit at a speed that varies with the intensity variation. Absorbing particles will additionally couple to the changing polarisation and may experience a spin-torque as they orbit. In this study we construct skirmionic beams in a computer model, and analyse the coupling of spin and orbital angular momentum to different types of particle. The binding and dynamics of multiple particles trapped in skyrmionics beams will also be examined.

AB - We explore optical trapping and binding in skyrmionic optical beams generated by combining pairs of focused Laguerre-Gaussian with different orders and orthogonal polarisations, using computer simulations. Typically, the resultant focal region of the skyrmionics beam is annular but with intensity and polarisation varying around the ring. Dielectric particles are trapped in the ring but orbit at a speed that varies with the intensity variation. Absorbing particles will additionally couple to the changing polarisation and may experience a spin-torque as they orbit. In this study we construct skirmionic beams in a computer model, and analyse the coupling of spin and orbital angular momentum to different types of particle. The binding and dynamics of multiple particles trapped in skyrmionics beams will also be examined.

U2 - 10.1117/12.3043472

DO - 10.1117/12.3043472

M3 - Conference Abstract

T2 - SPIE Photonics West

Y2 - 25 January 2025 through 30 January 2025