Foundations of Nanomechanics: From Solid-State Theory to Device Applications

Foundations of Nanomechanics: From Solid-State Theory to Device Applications

This text provides an introduction, at the level of an advanced student in engineering or physics, to the field of nanomechanics and nanomechanical devices. It provides a unified discussion of solid mechanics, transducer applications, and sources of noise and nonlinearity in such devices. Demonstrated applications of these devices, as well as an introduction to fabrication techniques, are also discussed. The text concludes with an overview of future technologies, including the potential use of carbon nanotubes and other molecular assemblies.

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Nanostructures: Theory and Modelling

Nanostructures: Theory and Modelling

Progress in nanoscience is becoming increasingly dependent on simulation and modeling. This is due to a combination of three factors: the reduced size of nano-objects, the increasing power of computers, and the development of new theoretical methods. This book represents the first attempt to provide the theoretical background needed by physicists, engineers and students to simulate nano-devices, semiconductor quantum dots and molecular devices. It presents in a unified way the theoretical concepts, the more recent semi-empirical and ab initio methods, and their application to experiments. The topics include quantum confinement, dielectric and optical properties, non-radiative processes, defects and impurities, and quantum transport. This guidebook not only provides newcomers with an accessible overview (requiring only basic knowledge of quantum mechanics and solid-state physics) but also provides active researchers with practical simulation tools.

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Basic Aspects of the Quantum Theory of Solids: Order and Elementary Excitations

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Aimed at graduate students and researchers, this book covers the key aspects of the modern quantum theory of solids, including up-to-date ideas such as quantum fluctuations and strong electron correlations. It presents in the main concepts of the modern quantum theory of solids, as well as a general description of the essential theoretical methods required when working with these systems. Diverse topics such as general theory of phase transitions, harmonic and anharmonic lattices, Bose condensation and superfluidity, modern aspects of magnetism including resonating valence bonds, electrons in metals, and strong electron correlations are treated using unifying concepts of order and elementary excitations. The main theoretical tools used to treat these problems are introduced and explained in a simple way, and their applications are demonstrated through concrete examples.

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Nanostructures: Theory and Modelling

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Progress in nanoscience is becoming increasingly dependent on simulation and modeling. This is due to a combination of three factors: the reduced size of nano-objects, the increasing power of computers, and the development of new theoretical methods. This book represents the first attempt to provide the theoretical background needed by physicists, engineers and students to simulate nano-devices, semiconductor quantum dots and molecular devices. It presents in a unified way the theoretical concepts, the more recent semi-empirical and ab initio methods, and their application to experiments. The topics include quantum confinement, dielectric and optical properties, non-radiative processes, defects and impurities, and quantum transport. This guidebook not only provides newcomers with an accessible overview (requiring only basic knowledge of quantum mechanics and solid-state physics) but also provides active researchers with practical simulation tools.

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Tower and Office: From Modernist Theory to Contemporary Practice

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In Tower and Office, Spanish architects Inaki Abalos and Juan Herreros look at the role and impact of advanced building technologies in American architecture since World War II. The war, they claim, marked the end of the first cycle of modernism, challenging the belief that technological progress alone could produce a perpetually better future. At the same time, the war was the source of powerful new structural models and construction methods. The authors examine the ways these technologies have been inflected over the last half century by more subjective and integrated processes of spatial organization. In the first part of the book, Abalos and Herreros focus on the work of Le Corbusier, revealing the degree of complexity achieved in his interpretation of the modern skyscraper. In the second part, they look at the intersection of technical and cultural determinants in the design of high-rise structures since World War II. Among the issues they consider are the evolution of the load-bearing frame, the impact of high-tech systems on tall buildings, and the transparent building skin. In the third part, they address developments in office design and planning, tracing an evolution from the repetitive and homogeneous office skyscraper to the present-day mixed-use structure. Overall they demonstrate how the objective technical analysis associated with modernist architectural theory has given way in recent building practice to a variety of flexible, pragmatic, and environmental approaches. These, they suggest, have opened the way to new urban and architectural forms.

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