Title :
Periodic Trajectories Obtained With an Active Tractor Beam Using Azimuthal Polarization: Design of Particle Exchanger
Author :
Carretero, L. ; Acebal, P. ; GarciÌa, C.
Author_Institution :
Dept. de Cienc. de Mater., Opt. y Tecnol. Electron., Univ. Miguel Hernandez, Elche, Spain
Abstract :
We analytically calculate the forces generated on the near field by a focused azimuthally polarized Hermite-Gauss beam after passing a complex mask formed by two annular pupils. The resultant optical tractor beam shows two transport channels that move trapped objects upstream or downstream along the conveyor. From the analysis of the phase diagrams, we theoretically demonstrate that, depending on illumination intensity, the 3-D behavior of nanoparticles in this conveyor shows a limit cycle between transport channels. This limit cycle appears as a consequence of diffraction that produces spatially limited optical forces. We theoretically demonstrate the possibility of using the limit cycle to design a particle exchanger between channels.
Keywords :
laser beams; light diffraction; light polarisation; radiation pressure; active tractor beam; annular pupils; azimuthal polarization; complex mask; focused azimuthally polarized Hermite-Gauss beam; illumination intensity; light diffraction; limit cycle; nanoparticles 3D behavior; optical conveyor; optical tractor beam; particle exchanger; periodic trajectories; phase diagrams; spatially limited optical forces; transport channels; trapped objects; Agricultural machinery; Laser beams; Optical beams; Optical diffraction; Optical polarization; Optical vortices; Trajectory; Biophotonics instrumentation; Diffractive optics; Difractive Optics; Scattering; biophotonics instrumentation; scattering;
Journal_Title :
Photonics Journal, IEEE
DOI :
10.1109/JPHOT.2015.2402123
