Computational Nanophotonics. Modeling and Applications
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| Примечания: | Applications of nanophotonics are fueling significant innovations in areas ranging from electronics, microcomputing, and biotechnology to medicine, consumer supplies, aerospace, and energy production. As progress in nanoscale science and engineering leads to the continued development of advanced materials and new devices, improved methods of modeling and simulation are required to achieve a more robust quantitative understanding of matter at the nanoscale. Computational Nanophotonics: Modeling and Applications offers expert insights into the current and emerging methods, opportunities, and challenges associated with the computational techniques in nanoscale research.. The book is written by, and for, those working in the interdisciplinary fields involved in nanophotonics, including engineering, physics, chemistry, biology, and medicine. An introduction to computational methods in nanophotonics, it covers a broad spectrum of technical information, research ideas, and practical knowledge. It also takes a closer look at the theory and modeling of two important nanoscale systems: waveguide structure and semiconductor nanowires. Throughout, the book identifies major advances and recent trends, and describes a wide variety of applications of micro- and nanoscale modeling systems in medicine, dentistry, and the military. The design and modeling of efficient nanophotonics systems require in-depth knowledge of the underlying physical and engineering principles, as well as the ability to use computational methods effectively. This book introduces key concepts in a way that is accessible to newcomers in the field. Building to more advanced topics, it also explores the challenges and opportunities for future research and development work in nanoscale computational nanophotonics. |
| Язык: | английский |
| Опубликовано: |
New York, Taylor & Francis, 2014
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| Предметы: | |
| Формат: | Книга |
| Запись в KOHA: | https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=255264 |
MARC
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| 200 | 1 | |a Computational Nanophotonics. Modeling and Applications |f edited by S. M. Musa | |
| 210 | |a New York |c Taylor & Francis |c CRC Press |d 2014 | ||
| 215 | |a 513 p. |c il. | ||
| 320 | |a Index: p. 499-513. | ||
| 330 | |a Applications of nanophotonics are fueling significant innovations in areas ranging from electronics, microcomputing, and biotechnology to medicine, consumer supplies, aerospace, and energy production. As progress in nanoscale science and engineering leads to the continued development of advanced materials and new devices, improved methods of modeling and simulation are required to achieve a more robust quantitative understanding of matter at the nanoscale. Computational Nanophotonics: Modeling and Applications offers expert insights into the current and emerging methods, opportunities, and challenges associated with the computational techniques in nanoscale research.. The book is written by, and for, those working in the interdisciplinary fields involved in nanophotonics, including engineering, physics, chemistry, biology, and medicine. An introduction to computational methods in nanophotonics, it covers a broad spectrum of technical information, research ideas, and practical knowledge. It also takes a closer look at the theory and modeling of two important nanoscale systems: waveguide structure and semiconductor nanowires. Throughout, the book identifies major advances and recent trends, and describes a wide variety of applications of micro- and nanoscale modeling systems in medicine, dentistry, and the military. The design and modeling of efficient nanophotonics systems require in-depth knowledge of the underlying physical and engineering principles, as well as the ability to use computational methods effectively. This book introduces key concepts in a way that is accessible to newcomers in the field. Building to more advanced topics, it also explores the challenges and opportunities for future research and development work in nanoscale computational nanophotonics. | ||
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