Phonons in Nanostructures by Michael A. Stroscio

Cover of: Phonons in Nanostructures | Michael A. Stroscio

Published by Cambridge University Press .

Written in English

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Subjects:

  • Condensed matter physics (liquids & solids),
  • Solid State Physics,
  • Science,
  • Science/Mathematics,
  • Physics,
  • Science / Physics,
  • Phonons,
  • Nanostructures

Book details

The Physical Object
FormatHardcover
Number of Pages320
ID Numbers
Open LibraryOL7754195M
ISBN 100521792797
ISBN 109780521792790

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Book Description. This book focuses on the theory of phonon interactions in nanoscale structures with particular emphasis on modern electronic and optoelectronic devices.

The critical role of phonons in semiconductor nanoscale devices is well known and a key goal of this book is to describe tractable models of confined phonons and how they are applied to calculations of basic Cited by: This book focuses on the theory of phonon interactions in nanoscale structures with particular emphasis on modern electronic and optoelectronic devices.

The continuing progress in the fabrication of semiconductor nanostructures with lower dimensional features has led to devices with enhanced functionality and even novel devices with new operating : Michael A.

Stroscio, Mitra Dutta. Overview This book focuses on the theory of phonon interactions in nanoscale structures with particular emphasis on modern electronic and optoelectronic devices. A key goal is to describe tractable models Phonons in Nanostructures book confined phonons and how these are applied to calculations of basic properties and phenomena of semiconductor : $ This book focuses on the theory of phonon interactions in nanoscale Phonons in Nanostructures book with particular emphasis on modern electronic and optoelectronic devices.

A key goal is to describe tractable models of confined phonons and how these are applied to calculations of basic properties and phenomena of semiconductor heterostructures. Summary: This book focuses on the theory of phonon interactions in nanostructures with particular emphasis on modern heterostructure devices.

Tractable models of confined phonons and their application to calculating properties and phenomena of semiconductor heterostructures are.

The following topics were successively covered: Models for confined phonons in semiconductor nanostructures, latest experimental observations of confined phonons and electron-phonon interaction in two-dimensional systems, elementary excitations in nanostructures, phonons and optical processes in reduced dimensionality systems, phonon limited transport phenomena, hot electron effects in quasi - ID structures, carrier relaxation and phonon bottleneck in quantum dots.

Phonons in Nanostructures by Michael a Stroscio, Mitra Dutta starting at $ Phonons in Nanostructures has 1 available editions to buy at Half Price Books Marketplace Same Low Prices, Bigger Selection, More Fun Shop the All-New.

This book focuses on the theory of phonon interactions in nanoscale structures with particular emphasis on modern electronic and optoelectronic devices.

For exciting phonons in nanostructures. This book focuses on the theory of phonon interactions in nanoscale structures with particular emphasis on modern electronic and optoelectronic devices.

A key goal is to describe tractable models of confined phonons and how these are applied to calculations of basic properties and phenomena of. : Hybrid Phonons in Nanostructures (Series on Semiconductor Science and Technology) (): Ridley, Brian K.: BooksCited by: 5.

ISBN: OCLC Number: Notes: "Published in cooperation with NATO Scientific Affairs Division." "Proceedings of the NATO Advanced Research Workshop on Phonons in Semiconductor Nanostructures, St. Feliu de Guixols, Spain, September". This book focuses on the theory of phonon interactions in nanoscale structures with particular emphasis on modern electronic and optoelectronic devices.

A key goal is to describe tractable models of confined phonons and how these are applied to calculations of basic properties and phenomena of semiconductor : $   This unique book about the theory of phonons in nanostructures is divided into three parts.

The first part Phonons in Nanostructures book with basic knowledge regarding lattice vibrations and their physical properties, while the second part is dedicated to hybrid lattice excitations and associated phonons in nanostructures such as quantum wells, quantum wires and.

This book focuses on the theory of phonon interactions in nanoscale structures with particular emphasis on modern electronic and optoelectronic devices. A key goal is to describe tractable models of confined phonons and how these are applied to calculations of basic properties and.

Book Published Cambridge ; New York: Cambridge University Press, Language English ISBN Contents. Chapter 1 Phonons in nanostructures 1; Phonon effects: fundamental limits on carrier mobilities and dynamical processes 1; Tailoring phonon interactions in devices with nanostructure components 3; Chapter 2 Phonons in bulk cubic crystals 6.

The interface optical phonons arise near the hetero-interface of a quantum nanostructure. Moreover, its spectrum and dispersion laws may differ from ones for excitations arising in the bulk materials. The study of such excitations can give fundamentally new information about the optical and transport properties of nanostructures.

Preface; The first part: 1. Phonons in nanostructures; 2. Phonons in bulk cubic crystals; 3. Phonons in bulk würtzite crystals; 4. Raman properties of bulk phonons; 5. Occupation number representation and general formulation of carrier-phonon scattering rates; 6.

Anharmonic coupling of phonons; 7. Continuum models for phonons in bulk and dimensionally-confined semiconductors; 8. Carrier-LO. Phonon heat conduction mechanisms in nanostructures may differ significantly from those in macrostructures.

In this paper, we illustrate the fundamental differences between heat conduction in nanostructures and macrostructures based on examples we have been working on, including particularly heat conduction in superlattices, nanowires, and nanoparticles. The book provides a technical account of the basic physics of nanostructures, which are the foundation of the hardware found in all manner of computers.

It will be of interest to semiconductor physicists and electronic engineers and advanced research students. Crystalline nanostructures have special properties associated with electrons and lattice vibrations and their interaction.

This book develops a methodology for the real-time coupled quantum dynamics of electrons and phonons in nanostructures, both isolated structures and those open to an environment. It then applies this technique to both fundamental and practical problems that are relevant, in particular, to nanodevice physics, laser–matter interaction, and.

Phonons in Nanostructures by Mitra Dutta, Michael a Stroscio starting at $ Phonons in Nanostructures has 1 available editions to buy at Half Price Books Marketplace Same Low Prices, Bigger Selection, More Fun Shop the All-New.

Phonons in Nanostructures - by Michael A. Stroscio August We use cookies to distinguish you from other users and to provide you with a better experience on our : Michael A.

Stroscio, Mitra Dutta. Crystalline semiconductor nanostructures have special properties associated with electrons and lattice vibrations and their interaction, and this is the topic of the book.

The result of spatial confinement of electrons is indicated in the nomenclature of nonostructures: quantum wells, quantum wires, and quantum dots.

Confinement also has a profound effect on lattice vibrations and an account. The phonon spectra of nanostructures (quantum dots, quantum wells and heterostructures) can be different from those of bulk crystals and depend on the nanocrystal shape and size.

The interface phonons, the folded acoustical phonons and the confined optical phonons may appear in the nanostructure spectra [22].

Free 2-day shipping. Buy NATO Science Series E:: Phonons in Semiconductor Nanostructures (Hardcover) at Generation of acoustic phonons in quantum-well structures Chapter11 Concludingconsiderations Pervasive role of phonons in modern solid-state devices Future trends: phonon effects in nanostructures and phonon engineering taxial nanostructures are embedded in a crystalline ma- Book.

Nov ; Wolfgang Demtröder A continuum model for acoustic phonons is introduced and electron-phonon interaction due to. The presence of interfaces in nanostructures forces the hybridization of longitudinally and transversely polarized modes, along with, in polarmaterial, electromagnetic modes.

Hybrid acoustic and optical modes are described, with an emphasis on polar-optical phonons and their interaction with electrons. In semiconductor nanostructures, phonons frequently encounter the boundaries of the structure, and surface scattering processes strongly affect heat conduction.

When the wavelengths of phonons are shorter than the surface roughness, the surface causes the phonons to scatter diffusely, thereby hindering heat conduction in the nanostructures.

Book Reviews Hybrid Phonons in Nanostructures. B.K. Ridley | 29 March | Review by Daniela Dragoman. This unique, accessible book about the theory of phonons in nanostructures can be read by anyone with basic knowledge of solid-state physics. read more. The following topics were successively covered: Models for confined phonons in semiconductor nanostructures, latest experimental observations of confined phonons and electron-phonon interaction in two-dimensional systems, elementary excitations in nanostructures, phonons and optical processes in reduced dimensionality systems, phonon limited.

Purchase Advances in Semiconductor Nanostructures - 1st Edition. Print Book & E-Book. ISBNWe review the current understanding of the acoustic phonon contribution to thermal transport in nanostructures from nanoparticles to thin films and membranes.

Confinement and cavity effects will be discussed as well as electrical and optical measurement methods. Arrays of semiconductor quantum dots have the potential for high–power lasers and for the generation of ultra-short pulses. Theoretical concerns include the description of the electron–hole interaction in a quantum dot, how electrons and holes recombine radiatively and non-radiatively, and how excited electrons and holes relax their energies.

This chapter focuses on the electron–phonon. Many nanostructures are made of materials with the same crystallographic structure but with different lattice constants, i.e.

the bond lengths of the bulk materials would differ. Such nanostructures exhibit strain, i.e. an internal deformation of the atomic positions and the bonds in between them. Strain has a large effect on many properties.

In nanostructures, phonons start to lose their coherent features in a higher frequency or shorter wavelength region. Zone-folding effects, thus, can be observed only at a low frequency as shown in a schematic phonon dispersion in Fig.

6(a). As a result, features of coherent phonons have been captured only at a low temperature. Electrons and phonons in nanostructures, 3 ECTS Quantum theory of light, 3 ECTS Advanced solid state physics, 3 ECTS Photonic quantum devices, 3 ECTS Electronic quantum device, 3 ECTS Bidimensional Materials, 3 ECTS Imaging nano-objects, 3 ECTS Experimantal projects in nanoscience, 6 ECTS Visits to Lab, 3 ECTS.

SECOND TERM ECTS Quantum. Purchase Nanostructures and Mesoscopic systems - 1st Edition. Print Book & E-Book. ISBNRounding out the presentation, the book examines ultrafast non-equilibrium electron dynamics in metal nanoparticles, monochromatic acoustic phonons in GaAs, and electromagnetically induced transparency in semiconductor quantum its pedagogical approach and practical, up-to-date coverage, Non-Equilibrium Dynamics of Semiconductors and.

A microscopic theory of the Raman scattering based on the local bond-polarizability model is presented and applied to the analysis of phonon confinement in porous silicon and porous germanium, as well as nanowire structures.

Within the linear response approximation, the Raman shift intensity is calculated by. With advent of fabrication technology, phonons are emerging as one of the key elements that control device performance as devices shrink. Both optical and acoustic phonons have a pervasive importance in carrier transport and energy dissipation in modern electronic devices [].For the last three decades, GaAs, AlAs and their alloy compounds have been used extensively as the active material in.

Miller, John, Jang, Wanyoung, and Dames, Chris. "Thermal Rectification by Ballistic Phonons in Asymmetric Nanostructures." Proceedings of the ASME Heat Transfer Summer Conference collocated with the InterPACK09 and 3rd Energy Sustainability Conferences.The field of low-dimensional structures has been experiencing rapid development in both theoretical and experimental research.

Phonons in Low Dimensional Structures is a collection of chapters related to the properties of solid-state structures dependent on lattice vibrations.

The book is divided into two parts. In the first part, research topics such as interface phonons and polaron states.

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