Effect of optical spatial coherence on localized spin angular momentum density in tightly focused light [Invited]

Author:

Wang Zixuan,Yan Chencheng,Wang Fei,Chen YahongORCID,Cai Yangjian1

Affiliation:

1. Shandong Normal University

Abstract

Optical coherence is one of the most fundamental characteristics of light and has been viewed as a powerful tool for governing the spatial, spectral, and temporal statistical properties of optical fields during light–matter interactions. In this work, we use the optical coherence theory developed by Emil Wolf as well as the Richards–Wolf’s vectorial diffraction method to numerically study the effect of optical coherence on the localized spin density of a tightly focused partially coherent vector beam. We find that both the transverse spin and longitudinal spin, with the former induced by the out-of-phase longitudinal field generated during strong light focusing and the latter induced by the vortex phase in the incident beam, are closely related to the optical coherence of the incident beam, i.e., with the decrease of the transverse spatial coherence width of the incident beam, the magnitude of the spin density components decreases as well. The numerical findings are interpreted well with the two-dimensional degrees of polarization between any two of the three orthogonal field components of the tightly focused field. We also explore the roles of the topological charge of the vortex phase on enhancing the spin density for the partially coherent tightly focused field. The effect of the incident beam’s initial polarization state is also discussed.

Funder

National Key Research and Development Program of China

National Natural Science Foundation of China

Innovation Group of Jinan

Local Science and Technology Development Project of the Central Government

Publisher

Optica Publishing Group

Subject

Computer Vision and Pattern Recognition,Atomic and Molecular Physics, and Optics,Electronic, Optical and Magnetic Materials

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