Shuqi Chen mostly deals with Optics, Optoelectronics, Polarization, Metamaterial and Plasmon. His work carried out in the field of Optics brings together such families of science as Amplitude modulation and Phase. His studies in Optoelectronics integrate themes in fields like Circular polarization and Graphene.
His study in Graphene is interdisciplinary in nature, drawing from both Wavelength and Fermi energy. His Polarization research integrates issues from Broadband and Miniaturization. His Metamaterial research is multidisciplinary, incorporating elements of Fano resonance, Surface plasmon, Optical materials, Figure of merit and Resonance.
His primary scientific interests are in Optics, Optoelectronics, Polarization, Metamaterial and Plasmon. Shuqi Chen works mostly in the field of Optics, limiting it down to topics relating to Phase and, in certain cases, Amplitude modulation and Amplitude, as a part of the same area of interest. His Optoelectronics research includes themes of Layer, Multiplexing, Graphene and Nanostructure.
His work deals with themes such as Nonlinear optics, Dielectric and Holography, which intersect with Polarization. His studies deal with areas such as Near and far field, Electromagnetic radiation, Scattering and Surface plasmon as well as Metamaterial. His study in the field of Surface plasmon polariton is also linked to topics like Planar.
Shuqi Chen mostly deals with Optoelectronics, Optics, Condensed matter physics, Photonics and Realization. His Optoelectronics research is multidisciplinary, incorporating perspectives in Polarization and Broadband. The various areas that Shuqi Chen examines in his Polarization study include Nonlinear optics, Holography, Artificial intelligence, Machine learning and Optical phenomena.
His work on Amplitude as part of general Optics study is frequently linked to Key, bridging the gap between disciplines. In general Condensed matter physics, his work in Structural symmetry is often linked to Chirality linking many areas of study. His research integrates issues of Multiplexing, Fano resonance, Angular momentum and Anisotropy in his study of Photonics.
The scientist’s investigation covers issues in Multiplexing, Optics, Amplitude, Optoelectronics and Photonics. His research in Optics intersects with topics in Amplitude modulation and Spin-½. His Amplitude research includes elements of Multiple time dimensions, Phase, Microstructure and Metamaterial.
Among his Photonics studies, you can observe a synthesis of other disciplines of science such as Degrees of freedom and Planar.
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Dynamically tunable plasmonically induced transparency in periodically patterned graphene nanostrips
Hua Cheng;Shuqi Chen;Ping Yu;Xiaoyang Duan.
Applied Physics Letters (2013)
Realization of broadband cross-polarization conversion in transmission mode in the terahertz region using a single-layer metasurface
Wenwei Liu;Shuqi Chen;Zhancheng Li;Hua Cheng.
Optics Letters (2015)
Simultaneous Control of Light Polarization and Phase Distributions Using Plasmonic Metasurfaces
Jianxiong Li;Shuqi Chen;Haifang Yang;Junjie Li.
Advanced Functional Materials (2015)
Coding Acoustic Metasurfaces
Boyang Xie;Kun Tang;Hua Cheng;Zhengyou Liu.
Advanced Materials (2017)
Dynamically tunable broadband mid-infrared cross polarization converter based on graphene metamaterial
Hua Cheng;Shuqi Chen;Ping Yu;Jianxiong Li.
Applied Physics Letters (2013)
Valley Topological Phases in Bilayer Sonic Crystals.
Jiuyang Lu;Chunyin Qiu;Weiyin Deng;Xueqin Huang.
Physical Review Letters (2018)
Polarization insensitive and omnidirectional broadband near perfect planar metamaterial absorber in the near infrared regime
Shuqi Chen;Hua Cheng;Haifang Yang;Junjie Li.
Applied Physics Letters (2011)
Realizing Broadband and Invertible Linear-to-circular Polarization Converter with Ultrathin Single-layer Metasurface
Zhancheng Li;Wenwei Liu;Hua Cheng;Shuqi Chen.
Scientific Reports (2016)
High-quality-factor multiple Fano resonances for refractive index sensing.
Yuebian Zhang;Wenwei Liu;Zhancheng Li;Zhi Li.
Optics Letters (2018)
Phase locking and in-phase supermode selection in monolithic multicore fiber lasers
L. Li;A. Schülzgen;S. Chen;V. L. Temyanko.
Optics Letters (2006)
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