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Tuesday, May 19, 2020 | History

4 edition of Surface electronic transport phenomena in semiconductors found in the catalog.

Surface electronic transport phenomena in semiconductors

by V. N. Dobrovolsky

  • 86 Want to read
  • 10 Currently reading

Published by Clarendon Press in Oxford .
Written in English


Edition Notes

StatementV.N. Dobrovolsky and V.G. Litovchenko.
SeriesSeries on semiconductor science and technology -- 2
ContributionsLitovchenko, V. G.
The Physical Object
Pagination192p.
Number of Pages192
ID Numbers
Open LibraryOL21173871M
ISBN 100198520344

Surface-specific states are present at the surfaces of all matters. On metallic surfaces, they are known to lead to a surface dipole which contributes to the work function of the metal surface. On semiconductors, the presence of surface states in the band gap is known to "pin" the Fermi level position of . In this book, a state-of-the-art technique called the multigroup approach is presented and applied to a variety of transport problems in bulk semiconductors and semiconductor devices. High-field effects as well as hot-phonon phenomena in polar semiconductors are studied in detail.

ISBN: OCLC Number: Description: xiv, pages: illustrations ; 24 cm. Contents: Phonons --Electrons --Phonon-phonon interaction --Electron-electron interaction --Electron-phonon interaction --Scattering by lattice imperfections --Formal transport theory --Lattice conduction --Electronic conduction in metals --Mobility in semiconductors --Size and surface. Dietl T. () Transport Phenomena in Semimagnetic Semiconductors. In: Averous M., Balkanski M. (eds) Semimagnetic Semiconductors and Diluted Magnetic Semiconductors. Ettore Majorana International Science Series, vol Cited by: 3.

transport in small-molecule organic semiconductors remains limited. The complex-ity of transport phenomena in these systems is due to the polaronic nature of charge carriers and strong interaction of small polarons with defects [6]. An especially challenging task is to develop an adequate model of high-temperature polaronic transport. Page 1 Electronic, Optical, and Magnetic Materials and Phenomena: The Science of Modern Technology. Important and unexpected discoveries have been made in all areas of condensed-matter and materials physics in the decade since the Brinkman report. 1 Although these scientific discoveries are impressive, perhaps equally impressive are technological advances during the same decade, .


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Surface electronic transport phenomena in semiconductors by V. N. Dobrovolsky Download PDF EPUB FB2

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Semiconductors is a journal that сovers semiconductor theory, transport phenomena in semiconductors, optics, magnetooptics, and electrooptics of semiconductors, devices based on semiconductors and nanostructures including lasers, semiconductor surface physics, and structural defects in semiconductors.

PEER REVIEW. Semiconductors is a peer reviewed journal. This textbook describes the physics of semiconductor nanostructures with emphasis on their electronic transport properties.

At its heart are five fundamental transport phenomena: quantized conductance, tunnelling transport, the Aharonov-Bohm effect, the quantum Hall Cited by: In engineering, physics and chemistry, the study of transport phenomena concerns the exchange of mass, energy, charge, momentum and angular momentum between observed and studied it draws from fields as diverse as continuum mechanics and thermodynamics, it places a heavy emphasis on the commonalities between the topicsmomentum, and heat transport all share a.

"The topics covered in the book include a good number of the important theoretical foundations of semiconductor optics and transport phenomena. If the reader is interested in the theory of optical and transport phenomena, this is an appropriate book." (Mike Gal, The Physicist, Vol.

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Subscribe. This monograph provides a survey of the diverse experimental and theoretical results for electron and hole transport in surface and subsurface regions of semiconductors, with an emphasis on the mechanisms involved and.

The main part of the book deals with the three important problems: charge carrier statistics in a semiconductor, classical and quantum theory of the electron transport phenomena. All the theoretical results considered, as well as the validity conditions, are presented in the form which may be directly used to interpret experimental data.

Transport Phenomena, First Edition. This book is designed for the undergraduate students of chemical engineering and covers the syllabi on Transport Phenomena as currently prescribed in most institutes and universities. Contents Preface Û¢ Introduction to Transport Phenomena Section A: MOMENTUM TRANSFER 1.

Surface Electronic Transport. This book contains the first systematic and detailed exposition of the linear theory of the stationary electron transport phenomena in semiconductors. Arbitrary isotropic and anisotropic nonparabolic bands as well as p-Ge-type bands are considered.

Phonon drag effect are taken account of in an arbitrary nonquantizing magnetic field. Scattering theory is discussed in detail with account taken. Covers semiconductor theory, transport phenomena in semiconductors, optics, magneto-optics, and electro-optics of semiconductors, semiconductor lasers and semiconductor surface physics.

The. Rita Khanna, Veena Sahajwalla, in Treatise on Process Metallurgy: Process Fundamentals, Surface Diffusion in Semiconductors. Surface diffusion of atoms deposited on substrate surfaces is of great importance in semiconductors. Atomic diffusion on Si() surface was determined by Mo et al.

[, ] using scanning tunneling microscopy and a link was established between the. Surface electronic structure Units Atomic units are used, with e = h = m = unit of energy is the Hartree ( X lo-'* J), though sometimes we shall use eV ( eV = 1 au); the unit of length is the Bohr radius ( x lo-'' m).The electron density is usually given in terms of r, the radius of a sphere containing one electron.

This review describes recent developments in fabrication of self-assembled Ge/Si quantum dot heterostructures with molecular beam epitaxy, quantum-dot electronic configuration, charge transport, optical, and spin phenomena.

We are focusing on the fundamental aspects and device applications of the dots with small (≈10 nm) sizes. Both carrier transport mechanisms are related since the same particles and scattering mechanisms are involved.

This leads to a relationship between the mobility and the diffusion constant called the Einstein relation. Carrier drift. #N# Impurity scattering. This book is a study of the theory of electrical and thermal conduction in metals, semiconductors, and insulators.

The basic ideas of crystal lattice dynamics, electron zone structure, and transport theory are developed from first principles, and formulae for the macroscopic coefficients are deduced by self-contained mathematical arguments.

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Series on Semiconductor Science and Technology 1. Jaros: Physics and applications of semiconductor microstructures 2. Dobrovolsky and V. Litovchenko: Surface electronic transport phenomena in semiconductors 3. Kelly: Low-dimensional semiconductors 4.

Theory of Electron Transport in Semiconductors: A Pathway from Elementary Physics to Nonequilibrium Green Functions - Ebook written by Carlo Jacoboni.

Read this book using Google Play Books app on your PC, android, iOS devices. Download for offline reading, highlight, bookmark or take notes while you read Theory of Electron Transport in Semiconductors: A Pathway from Elementary Physics to Author: Carlo Jacoboni.

Covers semiconductor theory, transport phenomena in semiconductors, optics, magnetooptics, and electrooptics of semiconductors, semiconductor lasers and semiconductor surface physics.

The journal features an extensive book review section. 1 Intrinsic charge transport on the surface of organic semiconductors V. Podzorov 1*, E.

Menard 2, A. Borissov1, V. Kiryukhin1, J. Rogers2, and M. Gershenson1 1 Department of Physics and Astronomy, Rutgers University, Piscataway, New Jersey 2 Department of Materials Science and Engineering, University of Illinois, Urbana-Champaign, Illinois.

Download This book will be useful to solid-state scientists, device engineers, and students involved in semiconductor design and technology.

It provides a lucid account of band structure, density of states, charge transport, energy transport, and optical processes, along with a .This book describes the basic physics of semiconductors, including the hierarchy of transport models, and connects the theory with the functioning of actual semiconductor devices.

Details are worked out carefully and derived from the basic physics, while keeping the internal coherence of the concepts and explaining various levels of approximation.Transport phenomena are the processes and rules by which heat, mass, and momentum move through and between materials and systems.

Along with thermodynamics, mechanics, and electromagnetism, this body of knowledge and theory forms the core principals of all physical systems and is essential to all engineering disciplines.