Litcius/Paper detail

Theoretical prediction of photophoretic force on a dielectric sphere illuminated by a circularly symmetric high-order Bessel beam: on-axis case

Haiyang Wang, Jiajie Wang, Wenqiang Dong, Yiping Han, Leonardo A. Ambrósio, Lei Liu

2021Optics Express17 citationsDOIOpen Access PDF

Abstract

Compared to the experimental progresses made in the optical trapping of aerosol particles in gaseous media by means of photophoretic forces, the theoretical analysis of photophoretic forces is less developed, the underlying mechanisms being yet not fully understood. In this paper, theoretical derivations of photopheresis of a dielectric sphere in gaseous media illuminated by a circularly symmetric Bessel beam of arbitrary order is presented within the framework of generalized Lorenz-Mie theory. An analytic and closed-form formula for the asymmetry factor, which ultimately determines the sense of direction of photophoretic force, is provided. The influences of particle size, absorptivity of the particle, half-cone angle, beam order of the Bessel beam on the asymmetry factor are explored in detail. The method proposed in this paper can be applied to a wider class of axisymmetric beams carrying nonzero topological charges.

Topics & Concepts

OpticsPhysicsBessel functionBeam (structure)Bessel beamAsymmetryLight beamOptical tweezersMie scatteringDielectricClassical mechanicsQuantum mechanicsLight scatteringScatteringOrbital Angular Momentum in OpticsMicrofluidic and Bio-sensing TechnologiesParticle Dynamics in Fluid Flows
Theoretical prediction of photophoretic force on a dielectric sphere illuminated by a circularly symmetric high-order Bessel beam: on-axis case | Litcius