Exploiting extraordinary topological optical forces at bound states in the continuum

Haoye Qin; Yuzhi Shi; Zengping Su; Guodan Wei; Zhanshan Wang; Xinbin Cheng; Ai Qun Liu; Patrice Genevet; Qinghua Song

doi:10.1126/sciadv.ade7556

Exploiting extraordinary topological optical forces at bound states in the continuum

Haoye Qin, Yuzhi Shi, Zengping Su, Guodan Wei, Zhanshan Wang, Xinbin Cheng, Ai Qun Liu, Patrice Genevet, Qinghua Song

Research output: Journal article publication › Journal article › Academic research › peer-review

41 Citations (Scopus)

Abstract

Polarization singularities and topological vortices in photonic crystal slabs centered at bound states in the continuum (BICs) can be attributed to zero amplitude of polarization vectors. We show that such topological features are also observed in optical forces within the vicinity of BIC, around which the force vectors wind in the momentum space. The topological force carries force topological charge and can be used for trapping and repelling nanoparticles. By tailoring asymmetry of the photonic crystal slab, topological force will contain spinning behavior and shifted force zeros, which can lead to three-dimensional asymmetric trapping. Several off-Γ BICs generate multiple force zeros with various force distribution patterns. Our findings introduce the concepts of topology to optical force around BICs and create opportunities to realize optical force vortices and enhanced reversible forces for manipulating nanoparticles and fluid flow.

Original language	English
Article number	eade7556
Journal	Science advances
Volume	8
Issue number	49
DOIs	https://doi.org/10.1126/sciadv.ade7556
Publication status	Published - Dec 2022
Externally published	Yes

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title = "Exploiting extraordinary topological optical forces at bound states in the continuum",

abstract = "Polarization singularities and topological vortices in photonic crystal slabs centered at bound states in the continuum (BICs) can be attributed to zero amplitude of polarization vectors. We show that such topological features are also observed in optical forces within the vicinity of BIC, around which the force vectors wind in the momentum space. The topological force carries force topological charge and can be used for trapping and repelling nanoparticles. By tailoring asymmetry of the photonic crystal slab, topological force will contain spinning behavior and shifted force zeros, which can lead to three-dimensional asymmetric trapping. Several off-Γ BICs generate multiple force zeros with various force distribution patterns. Our findings introduce the concepts of topology to optical force around BICs and create opportunities to realize optical force vortices and enhanced reversible forces for manipulating nanoparticles and fluid flow.",

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AU - Qin, Haoye

AU - Shi, Yuzhi

AU - Su, Zengping

AU - Wei, Guodan

AU - Wang, Zhanshan

AU - Cheng, Xinbin

AU - Liu, Ai Qun

AU - Genevet, Patrice

AU - Song, Qinghua

PY - 2022/12

Y1 - 2022/12

N2 - Polarization singularities and topological vortices in photonic crystal slabs centered at bound states in the continuum (BICs) can be attributed to zero amplitude of polarization vectors. We show that such topological features are also observed in optical forces within the vicinity of BIC, around which the force vectors wind in the momentum space. The topological force carries force topological charge and can be used for trapping and repelling nanoparticles. By tailoring asymmetry of the photonic crystal slab, topological force will contain spinning behavior and shifted force zeros, which can lead to three-dimensional asymmetric trapping. Several off-Γ BICs generate multiple force zeros with various force distribution patterns. Our findings introduce the concepts of topology to optical force around BICs and create opportunities to realize optical force vortices and enhanced reversible forces for manipulating nanoparticles and fluid flow.

AB - Polarization singularities and topological vortices in photonic crystal slabs centered at bound states in the continuum (BICs) can be attributed to zero amplitude of polarization vectors. We show that such topological features are also observed in optical forces within the vicinity of BIC, around which the force vectors wind in the momentum space. The topological force carries force topological charge and can be used for trapping and repelling nanoparticles. By tailoring asymmetry of the photonic crystal slab, topological force will contain spinning behavior and shifted force zeros, which can lead to three-dimensional asymmetric trapping. Several off-Γ BICs generate multiple force zeros with various force distribution patterns. Our findings introduce the concepts of topology to optical force around BICs and create opportunities to realize optical force vortices and enhanced reversible forces for manipulating nanoparticles and fluid flow.

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Exploiting extraordinary topological optical forces at bound states in the continuum

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