M
Md. Shamim Anower
Researcher at Rajshahi University of Engineering & Technology
Publications - 139
Citations - 1892
Md. Shamim Anower is an academic researcher from Rajshahi University of Engineering & Technology. The author has contributed to research in topics: Photonic-crystal fiber & Terahertz radiation. The author has an hindex of 18, co-authored 117 publications receiving 1109 citations. Previous affiliations of Md. Shamim Anower include University of Sulaymaniyah & University of New South Wales.
Papers
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Design and numerical analysis of highly sensitive Au-MoS 2 -graphene based hybrid surface plasmon resonance biosensor
TL;DR: In this article, the authors demonstrate a highly sensitive Au-MoS2-Graphene based hybrid surface plasmon resonance (SPR) biosensor for the detection of DNA hybridization.
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Highly sensitive nonlinear photonic crystal fiber based sensor for chemical sensing applications
TL;DR: In this article, an extremely high sensitive and nonlinear chemical sensor based on photonic crystal fiber is presented with numerical investigation, in order to reduce fabrication complexity, the proposed chemical detector is designed with circular air holes.
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A novel graphene coated surface plasmon resonance biosensor with tungsten disulfide (WS 2 ) for sensing DNA hybridization
TL;DR: In this paper, a rigorous configuration of graphene coated surface plasmon resonance (SPR) sensor with Tungsten Disulfide (WS2) for sensing DNA hybridization is proposed.
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Modeling of a highly sensitive MoS 2 -Graphene hybrid based fiber optic SPR biosensor for sensing DNA hybridization
M. Saifur Rahman,Md. Shamim Anower,Md. Khalilur Rahman,Md. Rabiul Hasan,Md. Biplob Hossain,Md. Ismail Haque +5 more
TL;DR: In this article, a highly sensitive optical fiber based Ag-MoS2-Graphene hybrid surface plasmon resonance (SPR) biosensor for DNA hybridization was investigated.
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Polarization-maintaining low-loss porous-core spiral photonic crystal fiber for terahertz wave guidance.
TL;DR: Some crucial design parameters such as power fraction, bending loss, and dispersion for usability in the THz regime are focused on.