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Orbital angular momentum spectrum of model partially coherent beams in turbulence

Arash Shiri, Greg Gbur

2024Optics Express14 citationsDOIOpen Access PDF

Abstract

The use of partial coherence has been extensively studied as a potential solution to mitigate the destructive effects of atmospheric turbulence in optical applications involving the free space propagation of light. However, in OAM-based optical systems, reducing coherence leads to the broadening of the orbital angular momentum (OAM) spectrum, consequently increasing the cross-talk between adjacent modes. In this paper, we have investigated three fundamental classes of partially coherent OAM beams under the influence of turbulence. The aim is to identify a distinct type of partially coherent beam (PCB) in which the reduction in coherence results in higher resistance of the OAM spectrum against atmospheric disturbances. It is demonstrated that, for a specific propagation distance, we can prepare a PCB in which the benefits of reducing coherence outweigh its drawbacks.

Topics & Concepts

Coherence (philosophical gambling strategy)Angular momentumPhysicsOpticsAtmospheric turbulenceTurbulenceMutual coherenceLight beamOrbital angular momentum of lightBeam (structure)Coherence lengthCoherence theoryAngular spectrum methodFree-space optical communicationOptical communicationTotal angular momentum quantum numberClassical mechanicsQuantum mechanicsDiffractionThermodynamicsSuperconductivityOrbital Angular Momentum in OpticsSperm and Testicular FunctionPlant Reproductive Biology
Orbital angular momentum spectrum of model partially coherent beams in turbulence | Litcius