What question did this study set out to answer?

The study aims to examine how Laguerre–Gaussian beam states move on the Poincaré sphere due to astigmatic transformation.

March 1, 2026

Evolution of Structured Laguerre–Gaussian Beam States on the Orbital Poincaré Sphere under General Astigmatic Transformation

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The study aims to examine how Laguerre–Gaussian beam states move on the Poincaré sphere due to astigmatic transformation.
Investigated trajectories of Laguerre–Gaussian beams on the Poincaré sphere.
Analyzed the effects of rotating cylindrical lenses.
Explored the relationship between trajectory shifts and orbital angular momentum.
Shifts in beam trajectory occur perpendicular to the Poincaré sphere’s axis.
Precessional motion is dependent on the rotation angle and the beam's angular momentum.
Findings assist in the analysis and control of light phase properties in optical systems.

Resumen

In this work, we investigate the trajectories of Laguerre–Gaussian beam states on the Poincaré sphere under general astigmatic transformation. It is shown that rotating the cylindrical lens shifts the trajectory into a plane perpendicular to the sphere’s axis, resulting in a precessional motion that depends on the rotate angle and the beam’s orbital angular momentum. The results are useful for analyzing and controlling the phase properties of light in optical systems.

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Evolution of Structured Laguerre–Gaussian Beam States on the Orbital Poincaré Sphere under General Astigmatic Transformation

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