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Particle trapping and beaming using a 3D nanotip excited with a plasmonic vortex

Liu, Kai, Maccaferri, Nicolò, Shen, Yuefeng, Li, Xueyun, Proietti Zaccaria, Remo, Zhang, Xuejin, Gorodetski, Yuri, Garoli, Denis

2020Open Repository and Bibliography (University of Luxembourg)27 citationsOpen Access PDF

Abstract

Recent advances in nanotechnology have prompted the need for tools to accurately and noninvasively manipulate individual nano-objects. Among the possible strategies, optical forces have been widely used to enable nano-optical tweezers capable of trapping or moving a specimen with unprecedented accuracy. Here, we propose an architecture consisting of a nanotip excited with a plasmonic vortex enabling effective dynamic control of nanoparticles in three dimensions. The structure illuminated by a beam with angular momentum can generate an optical field that can be used to manipulate single dielectric nanoparticles. We demonstrate that it is possible to stably trap or push the particle from specific points, thus enabling a new, to the best of our knowledge, platform for nanoparticle manipulation.

Topics & Concepts

Optical tweezersPlasmonTweezersOptical forceParticle (ecology)TrappingOpticsNanoparticleOptical vortexNanotechnologyAngular momentumNanophotonicsDielectricVortexBeam (structure)Materials scienceOptoelectronicsPhysicsEcologyQuantum mechanicsGeologyOceanographyThermodynamicsBiologyOrbital Angular Momentum in OpticsMicrofluidic and Bio-sensing TechnologiesNear-Field Optical Microscopy
Particle trapping and beaming using a 3D nanotip excited with a plasmonic vortex | Litcius