Min Qiu focuses on Optics, Optoelectronics, Plasmon, Photonic crystal and Yablonovite. His Optics study often links to related topics such as Dielectric. Min Qiu has included themes like Coupling, Broadband and Microwave in his Optoelectronics study.
His Plasmon study combines topics from a wide range of disciplines, such as Metamaterial, Absorption, Photonics and Nanostructure. His Photonic crystal research incorporates elements of Spontaneous emission, Negative refraction, Hexagonal lattice, Optical materials and Band gap. His Yablonovite research focuses on Guided-mode resonance and how it relates to Photonic-crystal fiber, Ridge and Bragg's law.
His primary areas of study are Optics, Optoelectronics, Plasmon, Photonic crystal and Resonator. His Optics study integrates concerns from other disciplines, such as Silicon and Dielectric. His research combines Absorption and Optoelectronics.
The study incorporates disciplines such as Photothermal therapy, Nanotechnology and Nanophotonics in addition to Plasmon. In general Photonic crystal study, his work on Yablonovite often relates to the realm of Slab, thereby connecting several areas of interest. His research integrates issues of Silicon on insulator, Signal, Coupled mode theory and Slow light in his study of Resonator.
Min Qiu mainly investigates Optoelectronics, Optics, Plasmon, Thermal and Nanotechnology. His Optoelectronics research integrates issues from Scattering, Absorption and Laser. His Optics research is multidisciplinary, relying on both Edge detection and Radiative cooling.
His Plasmon research incorporates themes from Nanoscopic scale, Nanoparticle, Surface plasmon resonance, Exciton and Lattice. His studies deal with areas such as Wavelength, Infrared, Emissivity and Common emitter as well as Thermal. Min Qiu interconnects Nanolithography, Metal and Lithography in the investigation of issues within Nanotechnology.
His primary scientific interests are in Optoelectronics, Optics, Plasmon, Dielectric and Thermal. He has included themes like Electromagnetic radiation, Energy harvesting, Scattering and Infrared in his Optoelectronics study. His Optics research is multidisciplinary, incorporating elements of Image processing and Edge detection.
His Plasmon study incorporates themes from Nanoscopic scale, Polarization, Nanoparticle, Exciton and Metamaterial. His Dielectric research is multidisciplinary, relying on both Absorption, Optical switch, Magnetic dipole and Nanostructure. His Thermal study combines topics from a wide range of disciplines, such as Camouflage, Wavelength, Phase and Emissivity.
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High performance optical absorber based on a plasmonic metamaterial
Jiaming Hao;Jing Wang;Xianliang Liu;Willie J. Padilla.
Applied Physics Letters (2010)
Negative refraction at infrared wavelengths in a two-dimensional photonic crystal.
Audrey Berrier;Mikaël Mulot;Marcin Swillo;Min Qiu.
Physical Review Letters (2004)
Nearly total absorption of light and heat generation by plasmonic metamaterials
Jiaming Hao;Lei Zhou;Min Qiu;Min Qiu.
Physical Review B (2011)
Ideal Cylindrical Cloak: Perfect but Sensitive to Tiny Perturbations
Zhichao Ruan;Min Yan;Curtis W. Neff;Min Qiu.
Physical Review Letters (2007)
Enhanced transmission through periodic arrays of subwavelength holes : The role of localized waveguide resonances
Zhichao Ruan;Min Qiu.
Physical Review Letters (2006)
Effective index method for heterostructure-slab-waveguide-based two-dimensional photonic crystals
Applied Physics Letters (2002)
Coupled mode theory analysis of mode-splitting in coupled cavity system.
Qiang Li;Tao Wang;Yikai Su;Min Yan.
Optics Express (2010)
Direct Coupling of Plasmonic and Photonic Nanowires for Hybrid Nanophotonic Components and Circuits
Xin Guo;Min Qiu;Jiming Bao;Benjamin J. Wiley.
Nano Letters (2009)
Nanosecond Photothermal Effects in Plasmonic Nanostructures
Xi Chen;Yiting Chen;Min Yan;Min Qiu.
ACS Nano (2012)
Super-reflection and cloaking based on zero index metamaterial
Jiaming Hao;Wei Yan;Min Qiu.
Applied Physics Letters (2010)
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