J
Jianyang Zhou
Researcher at Xiamen University
Publications - 43
Citations - 497
Jianyang Zhou is an academic researcher from Xiamen University. The author has contributed to research in topics: Computer science & Engineering. The author has an hindex of 10, co-authored 22 publications receiving 349 citations. Previous affiliations of Jianyang Zhou include Duke University.
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Single-Longitudinal-Mode Erbium-Doped Fiber Ring Laser Based on High Finesse Fiber Bragg Grating Fabry–PÉrot Etalon
TL;DR: In this paper, a simple and stable single-longitudinal mode (SLM) erbium-doped fiber laser is presented, which consists of an apodized fiber Bragg grating and a high finesse FBG-based Fabry-Perot (FP) etalon in the ring cavity.
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Enhanced Spatial Near-infrared Modulation of Graphene-loaded Perfect Absorbers Using Plasmonic Nanoslits
TL;DR: A kind of ultrathin near-infrared perfect absorber with enhanced spatial modulation effects and independence on a wide range of incident angles is designed, attributed to the plasmonic nanoslit mode, in which the optical electric field is highly concentrated in the deep subwavelength scale and the light-graphene interaction is significantly strengthened.
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Perfect ultraviolet absorption in graphene using the magnetic resonance of an all-dielectric nanostructure
TL;DR: The design of an all-dielectric nanostructure is adopted, in which the magnetic resonance of optical field is combined with an ultraviolet mirror, and an optimized absorbance ratio up to 99.7% is reached.
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Portable tumor biosensing of serum by plasmonic biochips in combination with nanoimprint and microfluidics
Jianyang Zhou,Feng Tao,Jinfeng Zhu,Shaowei Lin,Zhengying Wang,Xiang Wang,Jun-Yu Ou,Yuan Li,Qing Huo Liu +8 more
TL;DR: In this paper, a plasmonic immunochip platform for rapid portable detection of CEA by combining soft nanoimprint lithography, microfluidics, antibody functionalization, and mobile fiber spectrometry is presented.
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Through-Casing Hydraulic Fracture Evaluation by Induction Logging II: The Inversion Algorithm and Experimental Validations
TL;DR: Experimental results show that the inverse scattering algorithm is effective for EM contrast enhanced through-casing hydraulic fracture evaluation and is applied to solve the nonlinear inverse problem iteratively.