James K Freericks – författare
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3 produkter
3 produkter
Inbunden, Engelska, 2016
2 151 kr
Skickas inom 5-8 vardagar
Over the last 25 years, dynamical mean-field theory (DMFT) has emerged as one of the most powerful new developments in many-body physics. Written by one of the key researchers in the field, this book presents the first comprehensive treatment of this ever-developing topic. Transport in Mutlilayered Nanostructures is varied and modern in its scope, and:A series of over 50 problems help develop the skills to allow readers to reach the level of being able to contribute to research. This book is suitable for an advanced graduate course in DMFT, and for individualized study by graduate students, postdoctoral fellows and advanced researchers wishing to enter the field.
711 kr
Kommande
This open access book develops the world of quantum physics without the onerous math prerequisites of all other texts. Rather than taking just a descriptive approach, or the conventional higher-math approach, this book develops rigorous quantum mechanics beginning at the level of a nonscientist. It is appropriate for advanced high-school students, lifelong learners, citizen scientists, undergraduate students, graduate students, and even current practitioners, engaging a wide group of topics that require no math beyond high-school level. It will also inspire college and high school instructors looking for new ways to introduce quantum ideas without advanced math. It provides the formal training needed for future work in quantum science and technology.The book begins by employing Feynman’s methodology to explain many mysterious concepts of quantum mechanics using only high-school math yet covering advanced ideas. It then develops formalism and abstraction while covering undergraduate topics including spin, harmonic oscillator, angular momentum, nonrelativistic hydrogen, and particle in a box. The book concludes with an advanced treatment of graduate-level topics including time evolution, relativistic hydrogen, Heisenberg spin model, bosons and fermions, quantum simulation, second quantization, and quantum measurements. The math never advances beyond complex numbers and linear algebra and is fully self-contained. This volume, the first of two, covers conceptual ideas and quantum-mechanical reasoning, followed by developments in single-particle quantum mechanics focused on static properties. It is followed by Volume 2 which covers advanced topics including dynamics, relativity, many-body physics, electron correlations, decoherence, quantization of light, and measurement. Many topics are treated at a level similar to state-of-the-art of research, beyond what is typically covered in graduate quantum courses. There is no longer any excuse not to learn about one of the most fascinating developments of human knowledge. Prepare yourself for the second quantum revolution. This book can make everyone into a quantum mechanic. Even you!
Inbunden, Engelska, 2006
2 567 kr
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This novel book is the first comprehensive text on dynamical mean-field theory (DMFT), which has emerged over the past two decades as one of the most powerful new developments in many-body physics. Written by one of the key researchers in the field, the volume develops the formalism of many-body Green's functions using the equation of motion approach, which requires an undergraduate solid state physics course and a graduate quantum mechanics course as prerequisites. The DMFT is applied to study transport in multilayered nanostructures, which is likely to be one of the most prominent applications of nanotechnology in the coming years. The text is modern in scope focusing on exact numerical methods rather than the perturbation theory. Formalism is developed first for the bulk and then for the inhomogeneous multilayered systems. The science behind the metal-insulator transition, electronic charge reconstruction, and superconductivity are thoroughly described. The book covers complete derivations and emphasizes how to carry out numerical calculations, including discussions of parallel programing algorithms. Detailed descriptions of the crossover from tunneling to thermally activated transport, of the properties of Josephson junctions with barriers tuned near the metal-insulator transition, and of thermoelectric coolers and power generators are provided as applications of the theory.