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174 results on '"Zheng, Xuezhi"'

1. A Dedicated Modelling Scheme for Nonclassical Optical Response from the Nanosphere-on-Mirror Structure

Author

Yan, Xiaotian, Tserkezis, Christos, Mortensen, N. Asger, Vandenbosch, Guy A. E., and Zheng, Xuezhi

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Within the framework of the T-matrix method, we present a modeling tool that predicts the optical response from the Nanosphere-on-Mirror (NSoM) construct. The nonclassical effects in metals are accounted for by the nonlocal hydrodynamic Drude model (NLHDM) or the surface response model (SRM). Two essential elements in the T-matrix method, i.e., the T-matrix of the sphere and the R matrix accounting for the effects of the mirror, have been fully upgraded to include longitudinal waves for the NLHDM and the augmented interface conditions for the SRM. The proposed tool is quantitatively validated both in the near and the far field by an in-house developed BEM solver for the NLHDM where the gap between the sphere and the mirror is as small as 1 nm. Two physical checks are performed, where the results from the classical local response model are compared with the ones from the NLHDM and the SRM. The observed shifts in resonances and reduced field enhancements in the gap region agree well with previous physical findings. The proposed tool may not only serve as a reference tool for other numerical methods, but also provides an ideal platform for investigating nonclassical optical processes in the NSoM, hence paving a semi-analytical way to understand the extreme optics at very small scales.

Published
2023
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2. The Uniqueness Theorem for Nonlocal Hydrodynamic Media

Author

Mystilidis, Christos, Fikioris, George, Tserkezis, Christos, Vandenbosch, Guy A. E., and Zheng, Xuezhi

Subjects
Physics - Applied Physics
Abstract

We investigate a fundamental electromagnetic theorem, namely the uniqueness theorem, in the context of nonlocal electromagnetics, as simulated by a popular semiclassical model, the Hydrodynamic Drude Model (HDM) and extensions thereof such as the Generalized Nonlocal Optical Response (GNOR). The derivations and proofs presented here give a theoretical foundation to the use of the Additional Boundary Conditions (ABCs), whose necessity is recognized and underlined in virtually all implementations and applications of HDM. Our proofs follow a mathematically relaxed style, borrowing from the literature of established electromagnetics textbooks that study the matter from an engineering perspective. Through this simpler route we deduce clear and intuitive material-response requirements for uniqueness to hold, while using a familiar parlance in a topic that is mostly studied through a physics perspective. Two numerical examples that examine the problem from either a semianalytical or a purely numerical viewpoint support our findings., Comment: This work has been submitted to the IEEE for possible publication. Copyright may be transferred without notice, after which this version may no longer be accessible

Published
2023

4. Symmetry-compatible angular momentum conservation relation in plasmonic vortex lenses with rotational symmetries

Author

Yang, Jie, Feng, Pengyi, Han, Fei, Zheng, Xuezhi, Wang, Jiafu, Jin, Zhongwei, Verellen, Niels, Janssens, Ewald, Ni, Jincheng, Chen, Weijin, Yang, Yuanjie, Zhang, Anxue, Bai, Benfeng, Qiu, Chengwei, and Vandenbosch, Guy A E

Subjects
Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Plasmonic vortex lenses (PVLs), producing vortex modes, known as plasmonic vortices (PVs), in the process of plasmonic spin-orbit coupling, provide a promising platform for the realization of many optical vortex-based applications. Very recently, it has been reported that a single PVL can generate multiple PVs. This work exploits the representation theory of finite groups, reveals the symmetry origin of the generated PVs, and derives a new conservation relation based on symmetry principles. Specifically, the symmetry principles divide the near field of the PVL into regions, designate integers, which are the topological charges, to the regions, and, particularly, give an upper bound to the topological charge of the PV at the center of the PVL. Further application of the symmetry principles to the spin-orbit coupling process leads to a new conservation relation. Based on this relation, a two-step procedure is suggested to link the angular momentum of the incident field with the one of the generated PVs through the symmetries of the PVL. This theory is well demonstrated by numerical calculations. This work provides an alternative but essential symmetry perspective on the dynamics of spin-orbit coupling in PVLs, forms a strong complement for the physical investigations performed before, and therefore lays down a solid foundation for flexibly manipulating the PVs for emerging vortex-based nanophotonic applications., Comment: 23 pages and 3 figures

Published
2022

6. Symmetry-protected Spoof Localized Surface Plasmonic Skyrmion

Author

Yang, Jie, Zheng, Xuezhi, Wang, Jiafu, Pan, Yueting, Zhang, Anxue, Cui, Tiejun, and Vandenbosch, Guy A E

Subjects
Physics - Applied Physics, Physics - Optics
Abstract

Electromagnetic (EM) skyrmions are an EM analogue of the skyrmions in condensed matter physics, which offer new degrees of freedom to structure light and manipulate light matter interactions and thus promise various groundbreaking applications in optics and photonics. Recently, there is a growing interest in composing EM skyrmions based on different field vectors of EM waves. Here, we realize an EM skyrmion, i.e., a spoof plasmonic skyrmion, using the electric field vectors of spoof localized surface plasmons (spoof LSPs) in a planar microwave resonator with rotational and mirroring symmetries. We construct the spoof plasmonic skyrmion, which holds a hedgehog-like configuration in its electric field vectors, by synthesizing a scalar vortex with a topological charge 0 in the out-of-plane component of the fields, and a polarization vortex with a topological charge 1 in the in-plane component of the fields. Besides an experimental demonstration of this skyrmion, we employ group representation theory and pinpoint the symmetry origin of the skyrmion. Such an investigation demonstrates the ubiquity of the existence of the skyrmion in any planar EM resonator holding rotational and mirroring symmetries, regardless the dimensions and the operating frequencies. The designed skyrmion not only promises novel microwave applications for sensing, processing, storing and transferring information, but also lays down a general guideline for devising skyrmions operating over a broad range in the EM spectra owing to the fact that the conducted symmetry investigation is independent of specific dimension or frequency.

Published
2021

8. Detecting mid-infrared light by molecular frequency upconversion with dual-wavelength hybrid nanoantennas

Author

Xomalis, Angelos, Zheng, Xuezhi, Chikkaraddy, Rohit, Koczor-Benda, Zsuzsanna, Miele, Ermanno, Rosta, Edina, Vandenbosch, Guy A E, Martínez, Alejandro, and Baumberg, Jeremy J

Subjects
Physics - Optics
Abstract

Coherent interconversion of signals between optical and mechanical domains is enabled by optomechanical interactions. Extreme light-matter coupling produced by confining light to nanoscale mode volumes can then access single mid-infrared (MIR) photon sensitivity. Here we utilise the infrared absorption and Raman activity of molecular vibrations in plasmonic nanocavities to demonstrate frequency upconversion. We convert {\lambda}~10 {\mu}m incoming light to visible via surface-enhanced Raman scattering (SERS) in doubly-resonant antennas that enhance upconversion by >10^10. We show >200% amplification of the SERS antiStokes emission when a MIR pump is tuned to a molecular vibrational frequency, obtaining lowest detectable powers ~1 {\mu}W/{\mu}m^2 at room temperature. These results have potential for low-cost and large-scale infrared detectors and spectroscopic techniques, and bring single-molecule sensing into the infrared

Published
2021
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9. Wave Scattering in Moving Media across the Subluminal-Interluminal Regimes

Author

Deck-Léger, Zoé-Lise, Zheng, Xuezhi, and Caloz, Christophe

Subjects
Physics - Optics
Abstract

This paper extends current knowledge on electromagnetic wave scattering from bounded moving media in several regards. First, it complements the usual dispersion relation of moving media, $\omega(\theta_\mathbf{k})$ ($\theta_\mathbf{k}$: phase velocity direction, associated with the wave vector, $\mathbf{k}$), with the equally important impedance relation, $\eta(\theta_\mathbf{S})$ ($\theta_\mathbf{S}$: group velocity direction, associated with the Poynting vector, $\mathbf{S}$). Second, it explains the interluminal-regime phenomenon of double-downstream wave transmission across a stationary interface between a regular medium and the moving medium, assuming motion perpendicular to the interface, and shows that the related waves are symmetric in terms of the energy refraction angle, while being asymmetric in terms of the phase refraction angle, with one of the waves subject to negative refraction, and shows that the wave impedances of the two transmitted waves are equal. Third, it generalizes the problem to the case where the medium moves obliquely with respect to the interface. Finally, it highlights the connection between this problem and a spacetime modulated medium., Comment: 14 pages, 10 figures

Published
2020

15. Strain to shine: stretching-induced three-dimensional colloidal lattice transformations and optical transitions

Author

Zhao, Qibin, primary, An, Tong, additional, Jiang, Xinyu, additional, Gao, Feng, additional, Schäfer, Christian, additional, Qiu, Junjun, additional, Nan, Shi, additional, Song, Xiaokun, additional, Zhang, Manyao, additional, Finlayson, Chris, additional, Zheng, Xuezhi, additional, Li, Xiuhong, additional, Tian, Feng, additional, Zhu, Bin, additional, Sui, Tan, additional, Han, Xianhong, additional, Baumberg, Jeremy, additional, and Fan, Tongxiang, additional

Published
2023
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41. Wave Scattering in Moving Media across the Subluminal-Interluminal Regimes

Author

Deck-L��ger, Zo��-Lise, Zheng, Xuezhi, and Caloz, Christophe

Subjects
FOS: Physical sciences, Optics (physics.optics), Physics - Optics
Abstract

This paper extends current knowledge on electromagnetic wave scattering from bounded moving media in several regards. First, it complements the usual dispersion relation of moving media, $\omega(\theta_\mathbf{k})$ ($\theta_\mathbf{k}$: phase velocity direction, associated with the wave vector, $\mathbf{k}$), with the equally important impedance relation, $\eta(\theta_\mathbf{S})$ ($\theta_\mathbf{S}$: group velocity direction, associated with the Poynting vector, $\mathbf{S}$). Second, it explains the interluminal-regime phenomenon of double-downstream wave transmission across a stationary interface between a regular medium and the moving medium, assuming motion perpendicular to the interface, and shows that the related waves are symmetric in terms of the energy refraction angle, while being asymmetric in terms of the phase refraction angle, with one of the waves subject to negative refraction, and shows that the wave impedances of the two transmitted waves are equal. Third, it generalizes the problem to the case where the medium moves obliquely with respect to the interface. Finally, it highlights the connection between this problem and a spacetime modulated medium., Comment: 14 pages, 10 figures

Published
2020

49. Revealing Nanostructures through Plasmon Polarimetry

Author

Kleemann, Marie-Elena, Mertens, Jan, Zheng, Xuezhi, Cormier, Sean, Turek, Vladimir, Benz, Felix, Chikkaraddy, Rohit, Deacon, William, Lombardi, Anna, Moshchalkov, Victor V, Vandenbosch, Guy AE, Baumberg, Jeremy J, Kleemann, Marie-Elena [0000-0002-6892-7668], Cormier, Sean [0000-0003-2973-8722], Chikkaraddy, Rohit [0000-0002-3840-4188], Baumberg, Jeremy [0000-0002-9606-9488], and Apollo - University of Cambridge Repository

Subjects
plasmonic polarization signature, Physics::Optics, plasmonic cavities, tunable plasmons, nanoparticles, nano-optics
Abstract

Polarized optical dark-field spectroscopy is shown to be a versatile noninvasive probe of plasmonic structures that trap light to the nanoscale. Clear spectral polarization splittings are found to be directly related to the asymmetric morphology of nanocavities formed between faceted gold nanoparticles and an underlying gold substrate. Both experiment and simulation show the influence of geometry on the coupled system, with spectral shifts Δλ = 3 nm from single atoms. Analytical models allow us to identify the split resonances as transverse cavity modes, tightly confined to the nanogap. The direct correlation of resonance splitting with atomistic morphology allows mapping of subnanometre structures, which is crucial for progress in extreme nano-optics involving chemistry, nanophotonics, and quantum devices.

Published
2019
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50. On Hydrodynamic Models for the Nonlocal Optical Response of Deep-Nanometer Scatterers

Author

Kupresak, Mario, Zheng, Xuezhi, Vandenbosch, Guy, and Moshchalkov, Victor

Abstract

As light-matter interaction at the deep-nanometer scale has recently attracted much attention, several hydrodynamic models (HDM) are extensively studied, tackling quantum mechanical effects. These models essentially rely on the hydrodynamic equation of motion and additional boundary conditions (ABC), accounting for the motion of the free electron gas in metals. In this work, four hydrodynamic models are compared: the hard wall hydrodynamic model (HW-HDM), the curl-free hydrodynamic model (CF-HDM), the shear forces hydrodynamic model (SF-HDM), and the quantum hydrodynamic model (Q-HDM), with the Sauter ABC, the Pekar ABC, the specular reflection ABC, and the quantum hydrodynamic ABC, respectively. This is performed through the near and far field characterization of a canonical spherical nanoparticle with a nonlocal material parameter. The results reported demonstrate that the optical features investigated may be significantly altered by using different hydrodynamic approaches. ispartof: - ispartof: European Conference on Antennas and Propagation location:Krakow, Poland date:31 Mar - 5 Apr 2019 status: accepted

Published
2018

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