Magneto-optical-like effect in tight focusing of azimuthally polarized sine-Gaussian beams

Author:

Zhang WenfeiORCID,Fu ShengguiORCID,Man Zhongsheng1ORCID

Affiliation:

1. Shandong Normal University

Abstract

Magneto-optical effects, which have been known for over a century, are among the most fundamental phenomena in physics and describe changes in the polarization state of light when it interacts with magnetic materials. When a polarized plane wave propagates in or through a homogeneous and isotropic transparent medium, it is generally accepted that its transverse polarization structure remains unchanged. However, we show that a strong radial polarization component can be generated when an azimuthally polarized sine-Gaussian plane wave is tightly focused by a high numerical aperture lens, resulting in a magneto-optical-like effect that does not require external magnetic field or magnetic medium. Calculations show that the intensity structure and polarization distribution of the highly confined electric field strongly depend on the parameters m and φ0 in the sinusoidal term, where m can be used to control the number of the multifocal spots and φ0 can be used to control the position of each focal spot. Finally, we show that this peculiar electric field distribution can be used to realize multiple particles trapping with controllable numbers and locations.

Funder

National Natural Science Foundation of China

Natural Science Foundation of Shandong Province

Publisher

Optica Publishing Group

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