PLASMONICS

作品数:159被引量:420H指数:9
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相关领域:理学机械工程更多>>
相关作者:廖源郁杰骆阳邝艳敏刘凡新更多>>
相关机构:东南大学中国科学技术大学浙江工业大学南京大学更多>>
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相关基金:国家自然科学基金国家重点基础研究发展计划广东省自然科学基金中国博士后科学基金更多>>
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Femto-Laser Processed Metasurface With Fano Response:Applications to a High Performance Refractometric Sensor
《Photonic Sensors》2025年第2期149-161,共13页Mahmoud H.Elshorbagy Alejandro San-Blas Luis Miguel Sanchez-Brea Santiago M.Olaizola Jesús del Hoyo Angela Soria-Garcia Joaquin Andres-Porras Verónica Pastor-Villarrubia Javier Alda 
The practical development of compact modern nanophotonic devices relies on the availability of fast and low-cost fabrication techniques applicable to a wide variety of materials and designs.We have engraved a split gr...
关键词:PLASMONICS refractometric sensing Fano resonances laser-induced periodic surface structures 
Giant enhancement of negative friction by resonant coupling between localized surface phonon polaritons and graphene plasmonics
《Chinese Physics B》2025年第1期324-329,共6页Kaipeng Liu Shuai Zhou Shiwei Dai Lixin Ge 
Project supported by the National Natural Science Foundation of China (Grant No. 11804288);the Key Scientific Research Project of Higher Education Institutions in Henan Province, China (Grant No. 20231205164502999)。
Negative friction refers to a frictional force that acts in the same direction as the motion of an object, which has been predicted in terahertz(THz) gain systems [Phys. Rev. B 108 045406(2023)]. In this work, we inve...
关键词:quantum friction surface phonon polaritons surface plasmon polaritons GRAPHENE 
Near-field strong coupling and entanglement of quantum emitters for room-temperature quantum technologies
《PhotoniX》2024年第1期159-166,共8页Daniel D.A.Clarke Ortwin Hess 
funding from Science Foundation Ireland via Grant No.18/RP/6236.
In recent years,quantum nanophotonics has forged a rich nexus of nanotechnology with photonic quantum information processing,offering remarkable prospects for advancing quantum technologies beyond their current techni...
关键词:PLASMONICS Strong coupling Single-photon emission Quantum entanglement Quantum technologies 
Spatiotemporal topology of plasmonic spin meron pairs revealed by polarimetric photo-emission microscopy
《Advanced Photonics》2024年第6期111-118,共8页Pascal Dreher Alexander Neuhaus David Janoschka Alexandra Rödl Tim Colin Meiler Bettina Frank Timothy J.Davis Harald Giessen Frank Meyer zu Heringdorf 
support from the ERC(Complexplas,3DPrintedoptics),DFG(SPP1391“Ultrafast Nanooptics,”CRC 1242“Non-Equilibrium Dynamics of Condensed Matter in the Time Domain”Grant Nos.278162697-SFB 1242 and GRK2642“Photonic Quantum Engineers”),BMBF(Printoptics),BW Stiftung(Spitzenforschung,Opterial),Carl-Zeiss Stiftung;support from the MPI Guest Professorship Program and from the DFG(Grant No.GRK2642“Photonic Quantum Engineers”)for a Mercator Fellowship.
Topology is the study of geometrical properties and spatial relations unaffected by continuous changes and has become an important tool for understanding complex physical systems.Although recent optical experiments ha...
关键词:SPIN photonics electron microscopy PLASMONICS TOPOLOGY ultrafast optics 
Unveiling multimodal hot carrier excitation in plasmonic bimetallic Au@Ag nanostars for photochemistry and SERS sensing
《Nano Research》2024年第12期10355-10362,共8页Yoel Negrín-Montecelo Amir Elsaidy Jesús Giráldez-Martínez Enrique Carbó-Argibay Zhiming Wang Alexander O.Govorov Ramon A.Alvarez-Puebla Miguel A.Correa-Duarte Lucas V.Besteiro 
supported by the projects PID2020-120306RB-I00,PID2020-118282RA-I00,PID2020-113704RB-I00;TED2021-130038A-I00,TED2021-132101B-I00,RYC2021-033818-I,PDC2021-121787-I00,and FPU21/03137,funded by MCIN/AEI/10.13039/501100011033 and European Union“NextGenerationEU”/PRTR;ED431C 2022/24 funded by Xunta de Galicia;2020SGR00166 funded by Generalitat de Cataluña;2021PFR-URV-B2-02 funded by Universitat Rovira i Virgili;HORIZON-EIC-2022-PATHFINDERCHALLENGES-01-06(No.101115149);HORIZON-HLTH-2022-DISEASE-06-TWOSTAGE(No.101080889);funded by the European Union Horizon 2020 Research and Innovation Program。
Plasmonic nanostructures stand at the forefront of nanophotonics research,particularly in sensing and energy conversion applications.Their unique ability to confine light energy at the nanoscale makes them indispensab...
关键词:HOT-ELECTRONS field enhancement NANOHYBRIDS photocatalysis surface-enhanced Raman scattering(SERS) PLASMONICS 
Authentication through residual attention-based processing of tampered optical responses
《Advanced Photonics》2024年第5期41-50,共10页Blake Wilson Yuheng Chen Daksh Kumar Singh Rohan Ojha Jaxon Pottle Michael Bezick Alexandra Boltasseva Vladimir M.Shalaev Alexander V.Kildishev 
supported in part by the U.S.Department of Energy(DOE)Office of Science,through the Quantum Science Center(QSC),the National Quantum Information Science Research Center(algorithm development),the National Science Foundation(NSF);Purdue’s Elmore ECE Emerging Frontiers Center“The Crossroads of Quantum and AI.”。
The global chip industry is grappling with dual challenges:a profound shortage of new chips and a surge of counterfeit chips valued at$75 billion,introducing substantial risks of malfunction and unwanted surveillance....
关键词:machine learning PLASMONICS physical unclonable function ANTI-COUNTERFEITING tampering detection 
Optical spectra of plasmon-exciton core-shell nanoparticles:an anisotropic classical model eliminates discrepancies in experiments
《Chinese Optics Letters》2024年第9期142-147,共6页Alexey D.Kondorskiy 
supported by the Russian Science Foundation(No.19-79-30086).
The optical properties of hybrid core-shell nanostructures composed of a metallic core and an organic shell of molecular J-aggregates are determined by the electromagnetic coupling between plasmons localized at the su...
关键词:nanomaterials PLASMONICS POLARITONS organic materials optical properties anisotropic optical materials scattering particles 
Plasmonic group 4 transition metal carbide interfaces for solar-driven desalination
《Aggregate》2024年第4期147-154,共8页Matthew J.Margeson Mark Atwood Yashar Esfahani Monfared Mita Dasog 
Canada Foundation for Innovation;Ocean Frontier Institute;Natural Sciences and Engineering Research Council of Canada。
To combat the dwindling supply of freshwater,solar-driven desalination using plas-monic nanomaterials has emerged as a promising and renewable solution.Refractory plasmonic carbide nanomaterials are exciting candidate...
关键词:carbides DESALINATION PHOTOTHERMAL PLASMONICS water evaporation 
Ultrafast Plasmonics for All-Optical Switching and Pulsed Lasers
《Ultrafast Science》2024年第4期29-61,共33页Muhammad Aamir Iqbal Wang Lin Wang Pengyun Jianrong Qiu Xiaofeng Liu 
supported by the National Natural Science Foundation of China(grant number 62175210);the Natural Science Foundation of Zhejiang Province(grant number LR21E020005).
Surface plasmon resonances(SPRs)are often regarded as the collective oscillations of charge carriers localized at the dielectric–metal interface that display an ultrafast response upon light excitation.The recent dev...
关键词:SWITCHING COLLECTIVE ILLUSTRATION 
Polarization-directed nanophotonic routers based on twodimensional inorganic molecular crystals
《InfoMat》2024年第8期111-118,共8页Jiacheng Yao Xin Feng Tingting Zhang Fangqi Chen Zhenglong Zhang Hairong Zheng Tianyou Zhai Tao Ding 
National Key Research and DevelopmentProgram of China, Grant/Award Number:2020YFA0211300;National NaturalScience Foundation of China,Grant/Award Numbers: 12374356,21825103;Fundamental Research Fundsfor the Central Universities, Grant/AwardNumbers: 2042023kf0211, 2042023kf0233。
Photonic and plasmonic hybrid nanostructures are the key solution for integratednanophotonic circuits with ultracompact size but relative low loss. However,the poor tunability and modulability of conventional waveguid...
关键词:NANOFLAKES PLASMONICS polarization Sb_(2)O_(3) WAVEGUIDES 
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