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Spin-resolved near-field scanning optical microscopy for mapping of the spin angular momentum distribution of focused beams

Xiaojin Yin, Peng Shi, Luping Du, Xiaocong Yuan

2020Applied Physics Letters26 citationsDOI

Abstract

We proposed and built a near-field scanning optical microscope (NSOM) to enable the characterization of the spin angular momentum (SAM) distribution of electromagnetic fields with nanoscale resolution. The NSOM probe was composed of a circular nanohole formed in a thick gold film that was deposited on a tapered cone fiber. The near-field signal, when coupled through the nanohole to the fiber, was split and analyzed using a combination of a quarter-wave plate and a polarizer to extract the two circular polarization components of the signal. This allowed us to characterize the out-of-plane SAM component, which was determined using the relationship Sz ∝ IRCP − ILCP. Using the developed system, we mapped the SAM distributions of a variety of tightly focused cylindrical vector vortex beams and thus validated the system's effectiveness. The proposed spin-resolved NSOM could be a valuable tool for studies of both near-field spin optics and topological photonics.

Topics & Concepts

Near-field scanning optical microscopeOpticsCircular polarizationOptical microscopePolarization (electrochemistry)Angular momentumPhysicsPolarizerPhotonicsMaterials scienceScanning electron microscopeBirefringenceChemistryMicrostripQuantum mechanicsPhysical chemistryNear-Field Optical MicroscopyPlasmonic and Surface Plasmon ResearchOrbital Angular Momentum in Optics
Spin-resolved near-field scanning optical microscopy for mapping of the spin angular momentum distribution of focused beams | Litcius