Litcius/Paper detail

Robust and high‐speed rotation control in optical tweezers by using polarization synthesis based on heterodyne interference

Wei Liu, Dashan Dong, Hong Yang, Qihuang Gong, Kebin Shi

2020Opto-Electronic Advances21 citationsDOIOpen Access PDF

Abstract

The rotation control of particles in optical tweezers is often subject to the spin or orbit angular momentum induced optical torque, which is susceptible to the mechanical and morphological properties of individual particle. Here we report on a robust and high-speed rotation control in optical tweezers by using a novel linear polarization synthesis based on optical heterodyne interference between two circularly polarized lights with opposite handedness. The synthesized linear polarization can be rotated in a hopping-free scheme at arbitrary speed determined electronically by the heterodyne frequency between two laser fields. The experimental demonstration of a trapped vaterite particle in water shows that the precisely controlled rotation frequency of 300 Hz can be achieved. The proposed method will find promising applications in optically driven micro-gears, fluidic pumps and rotational micro-rheology.

Topics & Concepts

Optical tweezersOpticsHeterodyne (poetry)Polarization (electrochemistry)PhysicsLinear polarizationRotation (mathematics)Optical forceAngular momentumTorqueLaserMaterials scienceClassical mechanicsChemistryAcousticsComputer sciencePhysical chemistryThermodynamicsArtificial intelligenceOrbital Angular Momentum in OpticsMechanical and Optical ResonatorsDigital Holography and Microscopy