M
Markus A. Schmidt
Researcher at Leibniz Institute of Photonic Technology
Publications - 374
Citations - 6795
Markus A. Schmidt is an academic researcher from Leibniz Institute of Photonic Technology. The author has contributed to research in topics: Optical fiber & Photonic-crystal fiber. The author has an hindex of 39, co-authored 341 publications receiving 5817 citations. Previous affiliations of Markus A. Schmidt include Max Planck Society & University of Stuttgart.
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Evolution of the Fermi surface of Weyl semimetals in the transition metal pnictide family
Zhongkai Liu,Lexian Yang,Yan Sun,T. Zhang,T. Zhang,Han Peng,Haifeng Yang,Haifeng Yang,Cheng Chen,Yi Zhang,Yanfeng Guo,Yanfeng Guo,Dharmalingam Prabhakaran,Markus A. Schmidt,Zahid Hussain,Sung-Kwan Mo,Claudia Felser,Binghai Yan,Yulin Chen +18 more
TL;DR: By performing angle-resolved photoemission spectroscopy on NbP and TaP, this work directly observed their band structures with characteristic Fermi arcs of TWSs and discovered their Fermiology evolution with spin-orbit coupling (SOC) strength.
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Waveguiding and plasmon resonances in two-dimensional photonic lattices of gold and silver nanowires
TL;DR: In this paper, the fabrication of triangular lattices of parallel gold and silver nanowires of high optical quality was reported, with diameters down to $500\phantom{\rule{0.3em}{0ex}}\mathrm{nm}$ and length to diameter ratios as high as 100 000.
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Hybrid nanoparticle–microcavity-based plasmonic nanosensors with improved detection resolution and extended remote-sensing ability
TL;DR: This cavity–nanoparticle system effectively combines the advantages of Fabry–Perot microresonators with those of plasmonic nanoparticles, providing interesting features such as remote-sensing ability, incident-angle independent resonances, strong polarization dependence, lateral ultra small sensing volume and strongly improved detection resolution.
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Polarization-dependent coupling to plasmon modes on submicron gold wire in photonic crystal fiber
TL;DR: In this article, the authors present experimental results on coupling to surface plasmon modes on gold nanowires selectively introduced into polarization-maintaining photonic crystal fibers, which can be potentially used as in-fiber wavelength-dependent filters and polarizers and as near-field tips for sub-wavelength-scale imaging.
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Pressure-assisted melt-filling and optical characterization of Au nano-wires in microstructured fibers.
Ho Wai Howard Lee,Markus A. Schmidt,R. F. Russell,Nicolas Joly,H. K. Tyagi,P. Uebel,P. St. J. Russell +6 more
TL;DR: A novel splicing-based pressure-assisted melt-filling technique for creating metallic nanowires in hollow channels in microstructured silica fibers that suggest applications in fields such as nonlinear plasmonics, near-field scanning optical microscope tips, cylindrical polarizers, optical sensing and telecommunications.