Jiaguang Han spends much of his time researching Terahertz radiation, Optics, Optoelectronics, Metamaterial and Polarization. Jiaguang Han undertakes interdisciplinary study in the fields of Terahertz radiation and Rotational symmetry through his works. His Electromagnetic radiation, Broadband, Terahertz metamaterials and Amplitude study, which is part of a larger body of work in Optics, is frequently linked to Coding, bridging the gap between disciplines.
His Resonator, Plasmon and Photonics study in the realm of Optoelectronics interacts with subjects such as Metamaterial absorber. His Metamaterial study incorporates themes from Terahertz spectroscopy and technology, Resonance, Electromagnetically induced transparency and Nanophotonics. His work carried out in the field of Polarization brings together such families of science as Superlattice and Anisotropy.
Jiaguang Han mainly investigates Terahertz radiation, Optoelectronics, Optics, Metamaterial and Plasmon. His Terahertz radiation study combines topics in areas such as Polarization, Resonance, Broadband and Dielectric. In the subject of general Optoelectronics, his work in Photonics, Surface plasmon polariton and Electromagnetically induced transparency is often linked to Amplitude modulation, thereby combining diverse domains of study.
His Optics study frequently links to other fields, such as Phase. The Split-ring resonator research Jiaguang Han does as part of his general Metamaterial study is frequently linked to other disciplines of science, such as Metamaterial absorber, therefore creating a link between diverse domains of science. His research integrates issues of Near and far field, Surface wave and Coupling in his study of Plasmon.
Jiaguang Han focuses on Terahertz radiation, Optoelectronics, Optics, Metamaterial and Dielectric. His Terahertz radiation research integrates issues from Wavefront, Plasmon, Polarization, Broadband and Resonator. His Polarization research incorporates themes from Chromatic aberration and Full width at half maximum.
He interconnects Thin film and Near and far field in the investigation of issues within Optoelectronics. He has included themes like Electromagnetic radiation, Transmission, Waveplate, Linear polarization and Dichroism in his Metamaterial study. His work deals with themes such as Phase control and Spin-½, which intersect with Dielectric.
His primary areas of study are Terahertz radiation, Optoelectronics, Optics, Nanomaterials and Silicon. His studies deal with areas such as Wavefront, Spectroscopy, Polarization, Broadband and Surface plasmon polariton as well as Terahertz radiation. His research integrates issues of Polarization sensitive and Graphene in his study of Optoelectronics.
Jiaguang Han works in the field of Optics, namely Lens. The study incorporates disciplines such as Linear polarization, Multi-band device, Dichroic glass and Transmission in addition to Nanomaterials. His studies in Metamaterial integrate themes in fields like Electromagnetic radiation, Dipole, Magnetic dipole, Circular polarization and Dichroism.
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Active control of electromagnetically induced transparency analogue in terahertz metamaterials
Jianqiang Gu;Ranjan Singh;Xiaojun Liu;Xueqian Zhang.
Nature Communications (2012)
Broadband Metasurfaces with Simultaneous Control of Phase and Amplitude
Lixiang Liu;Lixiang Liu;Xueqian Zhang;Xueqian Zhang;Mitchell Kenney;Xiaoqiang Su.
Advanced Materials (2014)
Triple-band terahertz metamaterial absorber: Design, experiment, and physical interpretation
Xiaopeng Shen;Yan Yang;Yuanzhang Zang;Jianqiang Gu.
Applied Physics Letters (2012)
Anisotropic coding metamaterials and their powerful manipulation of differently polarized terahertz waves
Shuo Liu;Tie Jun Cui;Quan Xu;Di Bao.
Light-Science & Applications (2016)
Broadband Terahertz Wave Deflection Based on C‐shape Complex Metamaterials with Phase Discontinuities
Xueqian Zhang;Zhen Tian;Weisheng Yue;Jianqiang Gu.
Advanced Materials (2013)
A perfect metamaterial polarization rotator
Longqing Cong;Wei Cao;Xueqian Zhang;Zhen Tian.
Applied Physics Letters (2013)
Convolution Operations on Coding Metasurface to Reach Flexible and Continuous Controls of Terahertz Beams
Shuo Liu;Tie Jun Cui;Lei Zhang;Quan Xu.
Advanced Science (2016)
Electromagnetically induced transparency in terahertz plasmonic metamaterials via dual excitation pathways of the dark mode
Xiaojun Liu;Jianqiang Gu;Ranjan Singh;Yingfang Ma.
Applied Physics Letters (2012)
Active graphene–silicon hybrid diode for terahertz waves
Quan Li;Zhen Tian;Xueqian Zhang;Ranjan Singh.
Nature Communications (2015)
Highly flexible broadband terahertz metamaterial quarter-wave plate
Longqing Cong;Longqing Cong;Ningning Xu;Jianqiang Gu;Jianqiang Gu;Ranjan Singh.
Laser & Photonics Reviews (2014)
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