PLASMON

作品数:296被引量:340H指数:8
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Strong photoluminescence enhancement from a WS_(2) atomic layer integrated on a metallic nanogroove array with intermediate plasmon–exciton coupling
《Photonics Research》2024年第12期3006-3011,共6页YINGWEN SU HUA LU DIKUN LI CHUNYU WANG JIANLIN ZHAO 
National Key Research and Development Program of China(2022YFA1404800);National Natural Science Foundation of China(11974283,61705186,11774290);Fundamental Research Funds for the Central Universities(D5000240216);Shaanxi Fundamental Science Research Project for Mathematics and Physics(23JSQ022).
The coupling between surface plasmons and excitons in transition metal dichalcogenides(TMDs)plays crucial roles in light emission,nonlinear optics,and quantum information processing.However,the intermediate plasmon–e...
关键词:temperature COUPLING METALLIC 
Electric tuning of plasmonic resonances in ultrathin gold nanoribbon arrays
《Photonics Research》2024年第8期1750-1759,共10页ZHENXIN WANG ALEXEY VKRASAVIN CHENXINYU PAN JUNSHENG ZHENG ZHIYONG LI XIN GUO ANATOLY VZAYATS LIMIN TONG PAN WANG 
National Natural Science Foundation of China(62075195,92250305);National Key Research and Development Program of China(2023YFB2806700);The UK EPSRC CPLAS project(EP/W017075/1);Natural Science Foundation of Zhejiang Province(LDT23F04015F05);Fundamental Research Funds for the Central Universities(2023QZJH13)。
Ultrathin plasmonic nanostructures offer an unparalleled opportunity for the study of light–matter interactions at the nanoscale and realization of compact nanophotonic devices.In this study,we introduce an ultrathin...
关键词:PLASMON tuning REALIZATION 
Anomalous plasmon coupling and Fano resonance under structured light被引量:2
《Photonics Research》2023年第8期1423-1430,共8页DA-JIE YANG SONG-JIN IM HAI-WEN HUANG CHOL-SONG RI KUM-DONG KIM KIL-SONG SONG JI-CAI LIU QU-QUAN WANG 
Ministry of Science and Technology of the People's Republic of China(2020YFA0211303);National Natural Science Foundation of China(11974108,12074296,12204169,12211530044)。
Structured light carrying orbital angular momentum(OAM)opens up a new physical dimension for studying light–matter interactions.Despite this,the complex fields created by OAM beams still remain largely unexplored in ...
关键词:POLARIZATION COUPLING PLASMON 
Promoting spintronic terahertz radiation via Tamm plasmon coupling被引量:1
《Photonics Research》2023年第6期1057-1066,共10页YUNQING JIANG HONGQING LI XIAOQIANG ZHANG FAN ZHANG YONG XU YONGGUANG XIAO FENGGUANG LIU ANTING WANG QIWEN ZHAN WEISHENG ZHAO 
Beihang Hefei Innovation Research Institute Project(BHKX-19-01);National Natural Science Foundation of China(12004025)。
Spectral fingerprint and terahertz(THz)field-induced carrier dynamics demands the exploration of broadband and intense THz signal sources.Spintronic THz emitters(STEs),with high stability,a low cost,and an ultrabroad ...
关键词:PUMP POLARIZATION COUPLING 
Fast and hydrosensitive switching of plasmonic nanocavities via photothermal effect被引量:2
《Photonics Research》2023年第1期12-19,共8页FANGQI CHEN YONG LIU TAO DING 
National Key Research and Development Program of China(2020YFA0211300);National Natural Science Foundation of China(11974265,21703160)。
Metallic nanoplasmonics,due to its extremely small size and ultrafast speed,has been one of the key components for next-generation information technology.It is vital that the highly tunable nanoplasmonic system in the...
关键词:COMPOSITE PLASMON FILM 
Flexible manipulation of plasmon dephasing time via the adjustable Fano asymmetric dimer
《Photonics Research》2022年第10期2267-2277,共11页YANG XU YULU QIN PENG LANG BOYU JI XIAOWEI SONG JINGQUAN LIN 
National Natural Science Foundation of China(12004052,61775021,62005022,91850109);111 Project(D17017);Jilin Provincial Key Laboratory of Ultrafast and Extreme Ultraviolet Optics(YDZJ202102CXJD028);Ministry of Education Key Laboratory for Cross-Scale Micro and Nano Manufacturing,Changchun University of Science and Technology.
It is highly desirable to flexibly and actively manipulate the dephasing time of a plasmon in many potential applications;however,this remains a challenge.In this work,by using femtosecond time-resolved photoemission ...
关键词:ASYMMETRIC DIMER RADIATIVE 
Hybrid plasmonic–dielectric metal-nanowire coupler for high-efficiency broadband nonlinear frequency conversion被引量:1
《Photonics Research》2022年第10期2337-2342,共6页KUI-YING NIE SONG LUO FANG-FANG REN XUANHU CHEN SHULIN GU ZHANGHAI CHEN RONG ZHANG JIANDONG YE 
National Key Research and Development Program of China(2021YFB3600101);National Natural Science Foundation of China(91850112,U21A20503,U21A2071);Key-Area Research and Development Program of Guangdong Province(2020B010174002);Science and Technology Foundation of Guizhou Province(Qianke Foundation-ZK[2022]General 562);Master’s Degree Construction Project of Minzu Normal University of Xingyi(FZGHC2020-002).
Pursuing nanometer-scale nonlinear converters based on second harmonic generation(SHG)is a stimulating strategy for bio-sensing,on-chip optical circuits,and quantum information processing,but the light-conversion effi...
关键词:DIELECTRIC NONLINEAR PLASMON 
Advanced hybrid plasmonic nano-emitters using smart photopolymer
《Photonics Research》2022年第7期1552-1566,共15页DANDAN GE ALI ISSA SAFI JRADI CHRISTOPHE COUTEAU SYLVIE MARGUET RENAUD BACHELOT 
FEDER,The Région Grand Est,Universitéde Technologie de Troyes,école Universitaire de Recherche(ANR-18-EURE-0013)。
The integration of nano-emitters into plasmonic devices with spatial control and nanometer precision has become a great challenge.In this paper,we report on the use of a smart polymer to selectively immobilize nano-em...
关键词:POLYMER PLASMON ATTACHED 
Exceptional points and enhanced nanoscale sensing with a plasmon-exciton hybrid system
《Photonics Research》2022年第2期557-563,共7页Hong Jiang Weidong Zhang Guowei Lu Lulu Ye Hai Lin Jinglin Tang Zhaohang Xue Zheng Li Haitan Xu Qihuang Gong 
National Key Research and Development Program of China (2018YFB2200401);National Natural Science Foundation of China (11527901, 11974031,12174009, 61521004, 91950111)。
Singularities in the spectra of open systems, known as exceptional points(EPs), have been shown to exhibit nontrivial topological properties and enhanced sensitivities. Here, we propose a novel approach to realize the...
关键词:system PLASMON POINTS 
Low-temperature GaAs-based plasmonic photoconductive terahertz detector with Au nano-islands被引量:1
《Photonics Research》2020年第9期1448-1456,共9页HIRONARU MURAKAMI TOMOYA TAKARADA AND MASAYOSHI TONOUCHI 
Japan Society for the Promotion of Science(JP17H01269,JP18K18861,P18KK0140)。
We have fabricated low-temperature grown GaAs(LT-GaAs)-based plasmonic photoconductive antennas by RF sputtering of Au nanoparticles and have evaluated their terahertz detection properties.Localized surface plasmon re...
关键词:PHOTOCONDUCTIVE antennas PLASMON 
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