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Based on a progressive multi-disciplinary graduate course at the prestigious Tokyo Institute of Technology, this unique work offers an accessible approach to the nanoscale physics phenomena behind the unusual properties of nanomaterials. A current resource for material scientists, engineeers and physicists, as well as students, the book brings together the work of four leading experts. In relation to materials at the nanoscale, it covers fundamentals of quantum mechanics and band structure, electronic states and electrical properties, optical properties and interactions, and magnetic and magnetotransport properties. The book includes worked examples. A solutions manual is available for qualifying instructors.
Exploring the electrical, optical, and magnetic properties of materials at the nanoscale level, this text covers fundamental cross-disciplinary concepts in materials science and engineering. It presents a comprehensive description of the physical phenomena and changes that can be expected when macroscopically sized materials are reduced to the nanometer level. The authors link physical phenomena with recent scientific and technological developments and present an overview of quantum mechanics and the band structure of solids. Problem sets are included at the end of each chapter. A solutions manual is available upon qualifying course adoption.
Exploring the electrical, optical, and magnetic properties of materials at the nanoscale level, this text covers fundamental cross-disciplinary concepts in materials science and engineering. It presents a comprehensive description of the physical phenomena and changes that can be expected when macroscopically sized materials are reduced to the nanometer level. The authors link physical phenomena with recent scientific and technological developments and present an overview of quantum mechanics and the band structure of solids. Problem sets are included at the end of each chapter. A solutions manual is available upon qualifying course adoption.