Z. J. Hu scite author profile

Z. J. Hu

4Publications

57Citation Statements Received

27Citation Statements Given

How they've been cited

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Affiliations

Shanghai Jiao Tong University, Nankai University, National Center for Nanoscience and Technology

Publications

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Visualizing orbital angular momentum of plasmonic vortices

Shen

Yuan

et al. 2012

Opt. Lett.

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Plasmonic vortices (PVs) are generated by focusing a radially polarized optical vortex (OV) beam onto a metal surface. The intensity distribution of the PV is registered with a near-field scanning optical microscopy and agrees well with a theoretical prediction as well as numerical calculation. Beside the dark central spot, the numerical calculation also shows an azimuthal Poynting vector belonging to the PV, implying that the orbital angular momentum (OAM) was transferred from the radially polarized OV. To directly verify the OAM, plasmonic trapping experiments with gold micrometer particles are performed and the particle rotation is visualized. Further experiments by varying the topological charge of radially polarized OVs show the corresponding changes in rotation in terms of speed and radius.

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Structured light for  focusing surface plasmon polaritons

Hu¹,

Tan²,

Zhu³

et al. 2010

Opt. Express

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We propose a structureless method for focusing surface plasmon polaritons (SPPs) on a flat metal film under illumination of radially polarized cogwheel-like structured light beams. Without metal structures, the locally induced SPPs can further be propagated following the predefined patterns to form symmetric focal spots with dimensions beyond diffraction limit. Benefiting from the radial polarization, this method can be employed to pattern various center-symmetric evanescent distributions for generating SPPs reconfigurably. The SPPs will be propagating and focusing in radial directions.

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Dynamic surface plasmon patterns generated by reconfigurable “cogwheel-shaped” beams

Yuan

Zhu

et al. 2008

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A method for generating and controlling dynamic surface plasmon patterns by highly focused “cogwheel-shaped” beams is studied theoretically and experimentally. The “cogwheel” beams are formed by collinear superposition of two Laguerre–Gaussian beams with equal but opposite topological charges. It is shown that the patterned surface plasmons can be reconfigured locally with advantages over patterned metallic islands.

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Near-field radiative heat transfer enhancement by multilayers and gratings in the thermophotovoltaic system

2023

Sci. China Technol. Sci.

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Z. J. Hu

Visualizing orbital angular momentum of plasmonic vortices

Structured light for  focusing surface plasmon polaritons

Dynamic surface plasmon patterns generated by reconfigurable “cogwheel-shaped” beams

Near-field radiative heat transfer enhancement by multilayers and gratings in the thermophotovoltaic system

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About

Z. J. Hu

Visualizing orbital angular momentum of plasmonic vortices

Structured light for focusing surface plasmon polaritons

Dynamic surface plasmon patterns generated by reconfigurable “cogwheel-shaped” beams

Near-field radiative heat transfer enhancement by multilayers and gratings in the thermophotovoltaic system

Contact Info

Product

Resources

About

Structured light for  focusing surface plasmon polaritons