Dynamic Analysis and Simulation of an Optically Levitated Rotating Ellipsoid Rotor in Liquid Medium

Abstract: Optical trap, a circularly polarized laser beam can levitate and control the rotation of microspheres in liquid medium with high stiffness. Trapping force performs as confinement while the trapped particle can be analog to a liquid floated gyroscope with three degree-of-freedom. In this work, we analyzed the feasibility of applying optically levitated rotor in the system. We presented the dynamic analysis and simulation of an ellipsoid micron particle. The precession motion and nutation motion of a rotating el… Show more

“…Utilizing the laser tweezers as a tool to tear the adherent RBC off from the endothelial cell, Kapkov et al [ 55 ] carried out the measurements of the interaction forces between the individual RBC and the endothelial cell. Another interesting application of optical tweezers is to trap an ellipsoid micron particle as an optically levitated rotor which can be analog to a liquid floated gyroscope [ 56 ]. Researchers using optical tweezers on non-spherical particles mainly focus on particle rotation and cell–cell interaction.…”

Fabrication and Manipulation of Non-Spherical Particles in Microfluidic Channels: A Review

“…Utilizing the laser tweezers as a tool to tear the adherent RBC off from the endothelial cell, Kapkov et al [ 55 ] carried out the measurements of the interaction forces between the individual RBC and the endothelial cell. Another interesting application of optical tweezers is to trap an ellipsoid micron particle as an optically levitated rotor which can be analog to a liquid floated gyroscope [ 56 ]. Researchers using optical tweezers on non-spherical particles mainly focus on particle rotation and cell–cell interaction.…”

Fabrication and Manipulation of Non-Spherical Particles in Microfluidic Channels: A Review