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Bibliographic Details
Main Authors: Cabanilla, Jayson P., Hermosa, Nathaniel
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2509.13829
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author Cabanilla, Jayson P.
Hermosa, Nathaniel
author_facet Cabanilla, Jayson P.
Hermosa, Nathaniel
contents The uncertainty principle sets the limit for simultaneous measurements of position and momentum, and its angular analogue is realized through angular diffraction. When a beam is spatially confined by angular slits, the uncertainty in its orbital angular momentum (OAM) increases, leading to the generation of OAM sidebands. Both the angular slit number and the angular slit width shapes the spatial confinement of the beam. In this study, we investigate this dependence of the OAM sidebands by obstructing a Gaussian beam with $N$ number of evenly spaced angular slits with angular separation $Δθ_{sep}$. The power distribution among the OAM sidebands exhibits oscillatory behavior as a function of $Δθ_{sep}$. We find that the number of oscillations over the full range $0 \leq Δθ_{sep} \leq 2π/N$ is given by the ratio $\frac{|l|}{N}$. Furthermore, each OAM sideband acquires power only when $\frac{|l|}{N}$ takes an integer value, thereby demonstrating the role of the angular slit geometry to the structure of the OAM sidebands.
format Preprint
id arxiv_https___arxiv_org_abs_2509_13829
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The role of angular slit number and angular slit width on the OAM spectrum
Cabanilla, Jayson P.
Hermosa, Nathaniel
Optics
The uncertainty principle sets the limit for simultaneous measurements of position and momentum, and its angular analogue is realized through angular diffraction. When a beam is spatially confined by angular slits, the uncertainty in its orbital angular momentum (OAM) increases, leading to the generation of OAM sidebands. Both the angular slit number and the angular slit width shapes the spatial confinement of the beam. In this study, we investigate this dependence of the OAM sidebands by obstructing a Gaussian beam with $N$ number of evenly spaced angular slits with angular separation $Δθ_{sep}$. The power distribution among the OAM sidebands exhibits oscillatory behavior as a function of $Δθ_{sep}$. We find that the number of oscillations over the full range $0 \leq Δθ_{sep} \leq 2π/N$ is given by the ratio $\frac{|l|}{N}$. Furthermore, each OAM sideband acquires power only when $\frac{|l|}{N}$ takes an integer value, thereby demonstrating the role of the angular slit geometry to the structure of the OAM sidebands.
title The role of angular slit number and angular slit width on the OAM spectrum
topic Optics
url https://arxiv.org/abs/2509.13829