This book offers a comprehensive exploration of the Finite-Difference Time-Domain (FDTD) analysis of plasmonic devices, shedding light on their applications from optical to terahertz regimes. By delving into frequency-dependent formulations and innovative computational methods, it provides a robust framework for understanding the intricacies of plasmonic devices. Key concepts such as surface plasmon polariton, surface plasmon resonance, and metal-insulator-metal waveguides are meticulously examined. The book addresses critical questions about the efficiency and functionality of plasmonic…mehr
This book offers a comprehensive exploration of the Finite-Difference Time-Domain (FDTD) analysis of plasmonic devices, shedding light on their applications from optical to terahertz regimes. By delving into frequency-dependent formulations and innovative computational methods, it provides a robust framework for understanding the intricacies of plasmonic devices.
Key concepts such as surface plasmon polariton, surface plasmon resonance, and metal-insulator-metal waveguides are meticulously examined. The book addresses critical questions about the efficiency and functionality of plasmonic sensors and demultiplexers, offering insights into the latest advancements in the field. With contributions from leading experts, it presents a blend of theoretical perspectives and practical case studies, making it an essential resource for anyone interested in cutting-edge plasmonic technology.
Engineers, researchers, and graduate students in the fields of optics and terahertztechnology will find this book invaluable. It not only can enhance their understanding of FDTD methods but also will equip them with the knowledge to apply these techniques to real-world plasmonic device applications. Whether for a seasoned professional or a curious learner, this book is a gateway to the future of plasmonic research.
Jun Shibayama received his B.E., M.E., and D.Eng. degrees from Hosei University, Tokyo, Japan, in 1993, 1995, and 2001, respectively. In 1995, he joined Opto-Technology Laboratory, Furukawa Electric Co., Ltd., Ichihara, Chiba, Japan. He moved to Hosei University as an assistant professor in 1999 and has been a professor since 2015. His research interests include the numerical analysis of electromagnetic problems, particularly on optical and terahertz devices, and plasmonics. He was the first developer of an efficient implicit finite-difference time-domain (FDTD) algorithm called the locally one-dimensional FDTD (LOD-FDTD) method. Dr. Shibayama was honored with the IEEE Ulrich L. Rohde Innovative Conference Paper Award on Computational Techniques in Electromagnetics in 2017 and the Best Paper Award during the International Symposium on Microwave and Optical Technology in 2017. He also received the Institute of Electronics, Information and Communication Engineers (IEICE) Electronics Society Award in 2018 for his contributions to pioneering research on high-performance numerical analysis of the LOD-FDTD method. He is a senior member of Optica, a member of IEEE and of the Applied Computational Electromagnetics Society (ACES), and a fellow of IEICE.
Inhaltsangabe
Introduction.- FDTD method.-Frequency-Dependent FDTD method.- Plasmonic waveguide.-Demultiplexer based on 3-D MIM waveguide.- SPR (Surface Plasmon Resonance) waveguide sensor in the terahertz regime.- Kretschmann- and Otto-type SPR waveguide sensors in the terahertz regime.-Waveguide polarizer in the THz regime.- Grating consisting of InSb-coated dielectric cylinders in the THz regime.- Terahertz surface wave splitter.
Introduction.- FDTD method.-Frequency-Dependent FDTD method.- Plasmonic waveguide.-Demultiplexer based on 3-D MIM waveguide.- SPR (Surface Plasmon Resonance) waveguide sensor in the terahertz regime.- Kretschmann- and Otto-type SPR waveguide sensors in the terahertz regime.-Waveguide polarizer in the THz regime.- Grating consisting of InSb-coated dielectric cylinders in the THz regime.- Terahertz surface wave splitter.
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