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Synthetic spin dynamics with Bessel-Gaussian optical skyrmions

Keshaan Singh, Pedro Ornelas, Angela Dudley, Andrew Forbes

2023Optics Express30 citationsDOIOpen Access PDF

Abstract

Skyrmions are topologically stable fields that cannot be smoothly deformed into any other field configuration that differs topologically, that is, one that possesses a different integer topological invariant called the Skyrme number. They have been studied as 3-dimensional and 2-dimensional skyrmions in both magnetic and, more recently, optical systems. Here, we introduce an optical analogy to magnetic skyrmions and demonstrate their dynamics within a magnetic field. Our optical skyrmions and synthetic magnetic field are both engineered using superpositions of Bessel-Gaussian beams, with time dynamics observed over the propagation distance. We show that the skyrmionic form changes during propagation, exhibiting controllable periodic precession over a well defined range, analogous to time varying spin precession in homogeneous magnetic fields. This local precession manifests as the global beating between skyrmion types, while still maintaining the invariance of the Skyrme number, which we monitor through a full Stokes analysis of the optical field. Finally, we outline, through numerical simulation, how this approach could be extended to create time varying magnetic fields, offering free-space optical control as a powerful analogue to solid state systems.

Topics & Concepts

SkyrmionPhysicsPrecessionBessel functionMagnetic fieldClassical mechanicsQuantum mechanicsOrbital Angular Momentum in OpticsQuantum Information and CryptographyQuantum optics and atomic interactions
Synthetic spin dynamics with Bessel-Gaussian optical skyrmions | Litcius