Tailoring spatiotemporal dynamics of plasmonic vortices

Yuan, Xinyao; Xu, Quan; Lang, Yuanhao; Jiang, Xiaohan; Xu, Yuehong; Chen, Xieyu; Han, Jie; Zhang, Xueqian; Han, Jiaguang; Zhang, Weili

doi:10.29026/oea.2023.220133

Cited by 18 publications

(8 citation statements)

References 58 publications

(40 reference statements)

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“…As illustrated in Fig. 11(b), Yuan et al demonstrated that different coupler designs can even affect the spatiotemporal dynamics of plasmonic vortices with the same topological charge [299] . Yang et al found unexpected spiral phases in the center of generated plasmonic vortices and demonstrated the existence of deuterogenic plasmonic vortices, as shown in Fig.…”

Section: On-chip Tailoring Devicesmentioning

confidence: 99%

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Meta-optics inspired surface plasmon devices

Lang

Jiang

et al. 2023

Photonics Insights

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Surface plasmons (SPs) are electromagnetic surface waves that propagate at the interface between a conductor and a dielectric. Due to their unique ability to concentrate light on two-dimensional platforms and produce very high local-field intensity, SPs have rapidly fueled a variety of fundamental advances and practical applications. In parallel, the development of metamaterials and metasurfaces has rapidly revolutionized the design concepts of traditional optical devices, fostering the exciting field of meta-optics. This review focuses on recent progress of meta-optics inspired SP devices, which are implemented by the careful design of subwavelength structures and the arrangement of their spatial distributions. Devices of general interest, including coupling devices, on-chip tailoring devices, and decoupling devices, as well as nascent SP applications empowered by sophisticated usage of meta-optics, are introduced and discussed.

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Section: On-chip Tailoring Devicesmentioning

confidence: 99%

“…(b) Schematic of the temporal evolution progress of plasmonic vortices with the same topological charge generated by different couplers. Reproduced from an open access reference [299]. (c) Schematic of deuterogenic plasmonic vortex in the center of generated plasmonic vortex with higher topological charge.…”

Section: On-chip Tailoring Devicesmentioning

confidence: 99%

Meta-optics inspired surface plasmon devices

Lang

Jiang

et al. 2023

Photonics Insights

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“…Metasurfaces, with their unprecedented flexibility to manipulate light at the subwavelength scale, have been widely utilized for exotic functional devices. − In addition to free space light manipulation, metasurfaces can also be extensively incorporated into on-chip devices to efficiently modulate guided electromagnetic waves, known as meta-waveguide . Recently, on-chip metalens, polarization rotators, mode converters, and free-space light couplers have been designed based on chip-integrated metasurface. − Moreover, metasurface-assisted waveguide couplers designed based on phase matching conditions and the spin-momentum locking effect can be spin-, mode-, and wavelength-demultiplexing.…”

Section: Introductionmentioning

confidence: 99%

Freeform Metasurface-Assisted Waveguide Coupler for Guided Wave Polarization Manipulation and Spin–Orbit Angular Momentum Conversion

Chen,

Xu,

et al. 2024

ACS Photonics

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Metasurface integrated waveguide couplers provide a promising pathway toward advanced manipulation of free-space light for guided wave coupling, such as polarization routing, modeselective coupling, and wavelength (de)multiplexing. However, it is a great challenge to manipulate the guided wave polarization state to be completely decoupled from the polarization of incident light.Here, an adjoint-based topology optimization method is employed to inversely design a freeform metasurface for unidirectionally coupling free-space light into customized waveguide mode, with the capabilities of polarization manipulation and guided mode selection. An arbitrary transverse magnetic or transverse electric eigenmode can be unidirectionally excited for any incident polarization state conditions, with the maximum polarizationrotated mode purity and unidirectional coupling efficiency approaching 90.97 and 43%, respectively. Furthermore, by using multiobjective topology optimization, a meta-waveguide coupler with dual functions of generating polarization-controllable hybrid mode and realizing reconfigurable spin−orbit angular momentum conversion is inversely designed, leading to the increase of a mode (de)multiplexer channel number. Our work provides an effective strategy for multifunctional integrated on-chip devices and may have potential applications in optical communication, integrated optics, and quantum optics.

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“…Since Arthur Ashkin pioneered the development of optical beams that can precisely manipulate micro/nanoparticles [1], many researchers have stabilized the capture of particles by increasing gradient and radiation forces [2][3][4][5]. However, these methods exhibit limitations such as difficulty in maintaining stable capture in the far field.…”

Section: Introductionmentioning

confidence: 99%

Characterization of optical forces and torques in polystyrene spheres steered by tightly focused orbital angular momentum beams

Miao,

Long,

Zhang

et al. 2024

Advanced Fiber Laser Conference (AFL2023)

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With orbital angular momentum, tightly focused vortex beams can impose optical torque on particles through momentum transfer. In this paper, based on the Richards-Wolf vector diffraction theory, we examine the forces and moments exerted on Mie particles by a tightly focused beam, including the impact of the beam's intensity distribution and the topological charge (TC) number on particle trapping stability. Numerical calculations are conducted to assess the effects of corresponding parameters on the characteristics of the optical radiation force and the tight focusing properties. Our resultsshow that the direction of the particle's rotation is determined by the sign of the TC numbers and that there is a direct relationship between the magnitude of the induced torque and the TCs. Furthermore, the stability of particle control can be improved by OAM beams with small TCs. These results have potential applications in light capture, optical storage, and optical imaging.

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Tailoring spatiotemporal dynamics of plasmonic vortices

Cited by 18 publications

References 58 publications

Meta-optics inspired surface plasmon devices

Meta-optics inspired surface plasmon devices

Freeform Metasurface-Assisted Waveguide Coupler for Guided Wave Polarization Manipulation and Spin–Orbit Angular Momentum Conversion

Characterization of optical forces and torques in polystyrene spheres steered by tightly focused orbital angular momentum beams

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