Overview
- First book to cover phonon dispersion relations and phonon interactions at different length scales
- Discusses both theory and measurements of phonon transport and its relevance to materials properties
- Describes next-generation device designs from both the physics and the performance points of view
- Explores the science underlying nanoelectronics and nanomechanics
- Includes supplementary material: sn.pub/extras
Part of the book series: Topics in Applied Physics (TAP, volume 128)
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About this book
This book presents a comprehensive description of phonons and their interactions in systems with different dimensions and length scales. Internationally-recognized leaders describe theories and measurements of phonon interactions in relation to the design of materials with exotic properties such as metamaterials, nano-mechanical systems, next-generation electronic, photonic, and acoustic devices, energy harvesting, optical information storage, and applications of phonon lasers in a variety of fields.
The emergence of techniques for control of semiconductor properties and geometry has enabled engineers to design structures in which functionality is derived from controlling electron behavior. As manufacturing techniques have greatly expanded the list of available materials and the range of attainable length scales, similar opportunities now exist for designing devices whose functionality is derived from controlling phonon behavior. However, progress in this area is hampered by gaps in our knowledge of phonon transport across and along arbitrary interfaces, the scattering of phonons with crystal defects, interface roughness and mass-mixing, delocalized electrons/collective electronic excitations, and solid acoustic vibrations when these occur in structures with small physical dimensions. This book provides a comprehensive description of phonons and their interactions in systems with different dimensions and length scales. Theories and measurements of phonon interactions are described in relation to the design of materials with exotic properties such as metamaterials, nano-mechanical systems, next-generation electronic, photonic, and acoustic devices, energy harvesting, optical information storage, and applications of phonon lasers in a variety of fields.
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Keywords
- Ab Initio Thermal Transport
- Acoustic carrier transport, GaAs nanowires
- Dimensionality Dependence of Phonons
- Dimensionality Dependence of Phonons, theoretical
- Nanoelectronics systems phonons
- Nanomechanical systems phonons
- Nanophononics
- Phonon Transport, Bulk solids, theory
- Phonon Transport, nanotructured solids, theory
- Phonon interactions
- Phonon lasers
- Phonon lifetimes, first-principles determination
- Phonon scattering mechanisms
- Phonon transport
- Phonon transport, nanotructed solids
- Phonons in bulk
- Phonons in low-dimensional systems
- Phonons, bulk systems
- Phonons, low-dimensional systems
- SASER
- Semiconductor superlattice sasers, terahertz
- Symmetry Dependence of Phonons
- Symmetry Dependence of Phonons, theoretical
- Time-resolved phonon spectroscopy, nano
- Ultra-fast phonon dynamics
- mean free paths
- phonon transport, nano
- thermal conductivities, crystalline materials
- thermal phonons and interfaces
Table of contents (9 chapters)
Editors and Affiliations
Bibliographic Information
Book Title: Length-Scale Dependent Phonon Interactions
Editors: Subhash L. Shindé, Gyaneshwar P. Srivastava
Series Title: Topics in Applied Physics
DOI: https://doi.org/10.1007/978-1-4614-8651-0
Publisher: Springer New York, NY
eBook Packages: Physics and Astronomy, Physics and Astronomy (R0)
Copyright Information: Springer Science+Business Media New York 2014
Hardcover ISBN: 978-1-4614-8650-3Published: 30 October 2013
Softcover ISBN: 978-1-4939-4106-3Published: 23 August 2016
eBook ISBN: 978-1-4614-8651-0Published: 29 October 2013
Series ISSN: 0303-4216
Series E-ISSN: 1437-0859
Edition Number: 1
Number of Pages: XII, 296
Number of Illustrations: 41 b/w illustrations, 82 illustrations in colour
Topics: Solid State Physics, Nanotechnology, Nanotechnology and Microengineering, Physical Chemistry