ULTRA-THIN

作品数:193被引量:323H指数:8
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Machine learning assisted plasmonic metascreen for enhanced broadband absorption in ultra-thin silicon films
《Light(Science & Applications)》2025年第2期411-421,共11页Waqas W.Ahmed Haicheng Cao Changqing Xu Mohamed Farhat Muhammad Amin Xiaohang Li Xiangliang Zhang Ying Wu 
supported by King Abdullah University of Science and Technology(KAUST)Artificial Intelligence Initiative Fund,KAUST Baseline Research Fund No.BAS/1/1626-01-01;KAUST Office of the Sponsored Research under grant nos.OSR-2020-CRG9-4374 and OSR-2022-CRG11-5055.
We propose and demonstrate a data-driven plasmonic metascreen that efficiently absorbs incident light over a wide spectral range in an ultra-thin silicon flm.By embedding a double-nanoring silver array within a 20 nm ...
关键词:deep learning framework resonant cavity modes machine learning absorbs incident light ultra thin silicon films broadband absorption plasmonic metascreen tuning plasmon resonances 
Ultra-thin light-weight laser-induced-graphene (LIG) diffractive optics被引量:4
《Light(Science & Applications)》2023年第7期1268-1300,共33页Younggeun Lee Mun Ji Low Dongwook Yang Han Ku Nam Truong-Son Dinh Le Seung Eon Lee Hyogeun Han Seunghwan Kim Quang Huy Vu Hongki Yoo Hyosang Yoon Joohyung Lee Suchand Sandeep Keunwoo Lee Seung-Woo Kim Young-Jin Kim 
support from the National Research Foundation of Korea(NRF)through grants NRF-2021R1A4A103166013,NRF-2020R1A2C210233813,and NRF-2012R1A3A105038626;as well as from the Korea Forest Service(KFS)under grant KOFPl-2020229C10-2222-AC01;the Ministry of Agriculture,Food and Rural Affairs(MAFRA)under grant IPET-321077022SB010.
The realization of hybrid optics could be one of the best ways to fulfll the technological requirements of compact,light-weight,and multi-functional optical systems for modern industries.Planar diffractive lens(PDL)su...
关键词:OPTICS WEIGHT HOLOGRAPHIC 
Quantitative phase imaging through an ultra-thin lensless fiber endoscope被引量:14
《Light(Science & Applications)》2022年第8期1843-1852,共10页Jiawei Sun Jiachen Wu Song Wu Ruchi Goswami Salvatore Girardo Liangcai Cao Jochen Guck Nektarios Koukourakis Juergen W.Czarske 
Deutsche Forschungsgemeinschaft(DFG)grant CZ55/40-1;Tsinghua Scholarship for Overseas Graduate Studies grant 2020023;European Union’s Horizon 2020 research and innovation programs No.953121(project FLAMIN-GO);Open Access funding enabled and organized by Projekt DEAL。
Quantitative phase imaging(QPI)is a label-free technique providing both morphology and quantitative biophysical information in biomedicine.However,applying such a powerful technique to in vivo pathological diagnosis r...
关键词:FIBER phase THIN 
Ultra-thin, planar, Babinet-inverted plasmonic metalenses被引量:38
《Light(Science & Applications)》2013年第1期170-175,共6页Xingjie Ni Satoshi Ishii Alexander V Kildishev Vladimir M Shalaev 
This work is partially supported by Air Force Office of Scientific Research grant FA9550-12-1-0024,U.S.Army Research Office grant 57981-PH(W911NF-11-1-0359 and grant“Flat photonics with metasurfaces”);NSF grant DMR-1120923;A V Kildishev is supported by the AFRL Materials and Manufacturing Directorate Applied Metamaterials Program with UES,Inc.
We experimentally demonstrate the focusing of visible light with ultra-thin,planar metasurfaces made of concentrically perforated,30-nm-thick gold films.The perforated nano-voids—Babinet-inverted(complementary)nano-a...
关键词:metalens nano-antennas PLASMONICS wavefront shaping 
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