Gain-induced large optical torque in optical twist settings

Li, Genyan; Li, Xiao; Zhang, Lei; Chen, Jun

doi:10.1088/1674-1056/ab9616

Chinese Phys. B

2020

DOI: 10.1088/1674-1056/ab9616

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Gain-induced large optical torque in optical twist settings

Genyan Li

Xiao Li

Lei Zhang

et al.

Abstract: Inducing a significant optical torque remains a challenging task, since the law of angular momentum conservation implies that one has to harvest a lot of light. Such a problem was partially resolved by using optical twist via strong internal multiple scattering to recycle the photons, and one can induce a large torque per unit of radiation cross section. By using the Maxwell stress tensor and the generalized Lorentz-Mie scattering theory for multi-spheres, we investigate the influence of gain materials in furt… Show more

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Cited by 2 publications

References 44 publications

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Selective transport of chiral particles by optical pulling forces

Zheng

Chen

et al. 2021

Opt. Express

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We propose a simple approach for chirality sorting based on the optical pulling forces. The scenario is to employ three simple plane waves with the same circular polarization. The three wave vectors have the same longitudinal positive z component while their corresponding transverse projections in the x-o-y plane form a regular triangle. In such an optical lattice, particles with certain chirality will be drawn by the transverse optical force to the periodic intensity maxima, where they are stably trapped and exerted by an optical pulling force along the negative z direction. On the contrary, particles with the opposite chirality are de-trapped transversely away from the intensity maxima and then dispersed in regions where they subject to a positive (pushing) force along the z direction. The phenomena therefore give rise to an alternative all-optical method for selective transport of chiral particles with a wide range of chirality parameters.

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Selective transport of chiral particles by optical pulling forces

Zheng

Chen

et al. 2021

Opt. Express

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Morphology-dependent resonance induced optical forces in a multiple-sphere system

Wang¹,

Han²,

Zhang

2023

Opt. Express

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Optical fields and forces can be greatly enhanced for a microparticle when the whispering gallery modes (WGMs) are excited. In this paper, by solving the scattering problem using the generalized Mie theory, the morphology-dependent resonances (MDRs) and resonant optical forces derived from the coherent coupling of WGMs are investigated in multiple-sphere systems. When the spheres approach each other, the bonding and antibonding modes of MDRs emerge and correspond to the attractive and repulsive forces, respectively. More importantly, the antibonding mode is good at propagating light forward, while the optical fields decay rapidly for the bonding mode. Moreover, the bonding and antibonding modes of MDRs in the PT-symmetric system can persist only when the imaginary part of the refractive index is small enough. Interestingly, it is also shown that for a PT-symmetric structure, only a minor imaginary part of the refractive index is required to generate a significant pulling force at MDRs, making the whole structure move against the light propagation direction. Our work deepens the understanding of the collective resonance behavior of multiple spheres and paves the way for potential applications in particle transportation, non-Hermitian systems, integrated optical devices, etc.

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Gain-induced large optical torque in optical twist settings

Cited by 2 publications

References 44 publications

Selective transport of chiral particles by optical pulling forces

Selective transport of chiral particles by optical pulling forces

Morphology-dependent resonance induced optical forces in a multiple-sphere system

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