Easily digestible for beginners and useful to seasoned professionals, this book describes the key concepts of the computational Finite Difference Time Domain (FDTD) method, discusses the newest and most popular computational nanotechnologies using the FDTD method, and predicts future applications by examining interdisciplinary research from world-renowned experts. Complete with case studies, examples, supportive appendices, and FDTD codes accessible via a companion website, the text delivers a practical introduction to the use of FDTD in nanotechnology and serves as a valuable reference for both academia and industry.…mehr
Easily digestible for beginners and useful to seasoned professionals, this book describes the key concepts of the computational Finite Difference Time Domain (FDTD) method, discusses the newest and most popular computational nanotechnologies using the FDTD method, and predicts future applications by examining interdisciplinary research from world-renowned experts. Complete with case studies, examples, supportive appendices, and FDTD codes accessible via a companion website, the text delivers a practical introduction to the use of FDTD in nanotechnology and serves as a valuable reference for both academia and industry.
Sarhan M. Musa, Ph.D is currently an associate professor in the Department of Engineering Technology at Prairie View A&M University, Houston, Texas, USA. He has been director of Prairie View Networking Academy, Houston, Texas, USA since 2004. Dr. Musa has published more than 100 papers in peer-reviewed journals and conferences. He is frequently invited to speak about computational nanotechnology, has consulted for multiple organizations nationally and internationally, and has written and edited several books. Dr. Musa is a senior member of the Institute of Electrical and Electronics Engineers (IEEE) and is also an LTD Sprint and a Boeing Welliver fellow.
Inhaltsangabe
Preface. Acknowledgments. Editor. Contributors: Finite-Difference Time-Domain Method in Photonics and Nanophotonics Mohamed A. Swillam. The FDTD Method: Essences Evolutions and Applications to Nano-Optics and Quantum Physics Xiaoyan Y. Z. Xiong and Wei E. I. Sha. Modeling of Optical Metamaterials Using the FDTD Method Yan Zhao. Modeling Optical Metamaterials with and without Gain Materials Using FDTD Method Zhixiang Huang Bo Wu and Xianliang Wu. FDTD Simulation of Trapping Microspheres and Nanowires with Optical Tweezers Jing Li Chunli Zhu and Xiaoping Wu. Nanostructured Photodetector for Enhanced Light Absorption Narottam Das. Finite-Difference Time-Domain Method Application in Nanomedicine Viroj Wiwanitkit. Appendix A: Material and Physical Constants. Appendix B: Photon Equations Index of Refraction Electromagnetic Spectrum and Wavelength of Commercial Laser. Appendix C: Symbols and Formulas. Index.
Preface. Acknowledgments. Editor. Contributors: Finite-Difference Time-Domain Method in Photonics and Nanophotonics Mohamed A. Swillam. The FDTD Method: Essences Evolutions and Applications to Nano-Optics and Quantum Physics Xiaoyan Y. Z. Xiong and Wei E. I. Sha. Modeling of Optical Metamaterials Using the FDTD Method Yan Zhao. Modeling Optical Metamaterials with and without Gain Materials Using FDTD Method Zhixiang Huang Bo Wu and Xianliang Wu. FDTD Simulation of Trapping Microspheres and Nanowires with Optical Tweezers Jing Li Chunli Zhu and Xiaoping Wu. Nanostructured Photodetector for Enhanced Light Absorption Narottam Das. Finite-Difference Time-Domain Method Application in Nanomedicine Viroj Wiwanitkit. Appendix A: Material and Physical Constants. Appendix B: Photon Equations Index of Refraction Electromagnetic Spectrum and Wavelength of Commercial Laser. Appendix C: Symbols and Formulas. Index.
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