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Tuesday, July 28, 2020 | History

4 edition of Kinetic and electrodynamic phenomena in classical and quantum semiconductor superlattices found in the catalog.

Kinetic and electrodynamic phenomena in classical and quantum semiconductor superlattices

by F. G. Bass

  • 266 Want to read
  • 39 Currently reading

Published by Nova Science Publishers in New York .
Written in English

    Subjects:
  • Superlattices as materials.,
  • Electrodynamics.

  • Edition Notes

    Includes bibliographical references (p. [462]-489) and index.

    StatementF.G. Bass and A.A. Bulgakov.
    ContributionsBulgakov, A. A.
    Classifications
    LC ClassificationsQC611.8.S86 B35 1997
    The Physical Object
    Paginationviii, 498 p. :
    Number of Pages498
    ID Numbers
    Open LibraryOL761445M
    ISBN 101560724250
    LC Control Number97158467

    Yu and Cardona present in their book a concise, personal and yet satisfactory list of topics. presentations are particularly inspiring and enlightening, giving a direct insight into the motivations and into paths which led researchers to fundamental advances in semiconductor physics.” (S. Sanguinetti, Il Nuovo Saggiatore, Vol. 27 (), ). Chapter 2 Semiconductor Fundamentals _____ Introduction There are altogether 92 types of natural occurring elements, of which only few types are important in semiconductor physics and technology. They are the elements from Group IVA, Group VA, Group IIIA, Group IIB, and Group VIA of the periodic Size: KB.

    Semiconductor microcavities with engineered photonic states are a valuable platform to observe fundamental and emergent quantum electrodynamic phenomena[1]. Polaritons are formed as a quantum superposition of semiconductor-excitons and microcavity-photons when the exciton-photon interaction is much larger than their decay rates. The ability toCited by: New quantum phenomena in graphene superlattices. A team of Graphene Flagship researchers led by the University of Manchester reported in the journal Science showing the first new type of quantum oscillation to be reported for thirty years. This occurs by applying a magnetic field and it is the first of its kind to be present at high.

    Classical Electrodynamics and theQuantum Natureof Light Manoelito M de Souza Universidade Federal do Esp´ırito Santo - Departamento de F´ısica -Vit´oria-ES-Brasil (Octo ) A review of old inconsistencies of Classical Electrodynamics (CED) and of some new ideas that solve them is presented.   1. Phys Rev B Condens Matter. Jan 15;53(4):RR Transition from classical to quantum response in semiconductor superlattices at THz by:


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Kinetic and electrodynamic phenomena in classical and quantum semiconductor superlattices by F. G. Bass Download PDF EPUB FB2

Kinetic and electrodynamic phenomena in classical and quantum semiconductor superlattices. [F G Bass; A A Bulgakov] Quantum superlattices. Classical and quantum mechanics of electron in superlattice.

Conduction and galvanomagnetic effects in superlattice semiconductors. Superlattice semiconductor in d-c and a-c electric fields. : Kinetic and Electrodynamic Phenomena in Classical and Quantum Semiconductor Superlattices (): Bass, F. G., Bulgakov, A. A.: BooksPrice: $ Electrodynamic properties of a semiconductor periodic layered resonator.

Kinetic and electrodynamic phenomena in classical and quantum semiconductor superlattices electrodynamic phenomena Author: Oksana Shramkova. Quantum theory is the study of physics at the atomic and sub atomic level.

It quantises energy and momentum and shows how objects Author: Sian Fogden. We have observed the same phenomena in our numerical solutions of the Boltzmann–BGK kinetic equations.

Firstly, we present a typical case of self-sustained current oscillations accompanied by the motion and recycling of an electric field dipole wave, corresponding to a period nm GaAs / nm AlAs SL at 14 K, with Δ = 72 meV, N D Cited by: 6.

Bass and A. Bulgakov, Kinetic Electrodynamic Phenomena in Classical and Quantum Semiconductor Superlattices. New York, NY, USA: Nova Author: Oksana Shramkova. Written by international experts, Physics and Applications of Semiconductor Quantum Structures covers the most important recent advances in the field.

Beginning with a review of the evolution of semiconductor superlattices and quantum nanostructures, the book explores fabrication and. home > vol. 32 > pp. surface electromagnetic waves in finite semiconductor-dielectric periodic structure in an external magnetic field by v. baibak, i.

fedorin, and a. bulgakov. Suppose that we make a superlattice out of two III-V compound semiconductors (similar in concept to the superlattices fabricated from GaAs/Ga \(_{1-x}\) Al \(_x\) As). Assume that the narrow gap semiconductor (A) is a direct gap semiconductor at \(k=0\) (\(E_g = \) eV) with \(m^*_e = m_0\) for the electrons and \(m^*_{hh} = m_0\) and Author: Mildred Dresselhaus, Gene Dresselhaus, Stephen B.

Cronin, Antonio Gomes Souza Filho. Summary. Topological aspect of the dynamics of electrons in crystals (band electrons) is discussed.

The main peculiarities of such electrons are connected with the form of their isoenergy surfaces, which is different from those of the free by: 1. This book provides a unified and complete theory for semiconductor lasers, covering topics ranging from the principles of classical and quantum mechanics to highly advanced levels for readers who need to analyze the complicated operating characteristics generated in the real application of semiconductor : Springer Japan.

Book Review of Semiconductor quantum wells and superlattices for long-wavelength infrared detectors, Ed MO Manasreh Rutt, H.N. () Book Review of Semiconductor quantum wells and superlattices for long-wavelength infrared detectors, Ed Author: H.N.

Rutt. COVID campus closures: see options for getting or retaining Remote Access to subscribed contentCited by: New Book List - 6/23/97 Bass, F. KINETIC AND ELECTRODYNAMIC PHENOMENA IN CLASSICAL AND QUANTUM SEMICONDUCTOR SUPERLATTICES.

Nova Science Publishers, Inc. DOING BUSINESS IN FINLAND. Paris Price Waterhouse. Quantum dot (QD) superlattices, periodically ordered array structures of QDs, are expected to provide novel photo-optical functions due to their resonant couplings between adjacent QDs.

Here, we computationally demonstrated that electronic structures and phonon dynamics of a QD superlattice can be effectively and selectively controlled by manipulating its interior Cited by: 3.

Classical electrodynamics and electronics are used for analytical describing of physical processes in the microwave, infrared and at shorter frequency ranges--the methods that correspond to quantum electronics and optics.

Kinetic and Electrodynamic Phenomena in Classical and Quantum Semiconductor Superlattices, Nova Science, New York,   This review seeks to extend the scope of both the experimental and theoreticalwork carried out since I completed my review on the electronic, optical, andto a lesser extent, the transport properties of a variety of semiconductor quantumdots (QDs).

In addition to the many advances that have been made on topics suchas quantum confinement Cited by:   A detailed theory of nonisothermal electron transport perpendicular to multilayer superlattice structures is presented.

The current–voltage (I–V) characteristics and the cooling power density are calculated using Fermi–Dirac statistics, density-of-states for a finite quantum well and the quantum mechanical reflection coefficient. The resulting equations are valid in a Cited by: Quantum dynamical phenomena of independent electrons in semiconductor superlattices subject to a uniform electric field Ann Marie Bouchard Iowa State University Follow this and additional works at: Part of theCondensed Matter Physics Commons, and theElectrical and Electronics Commons.

Gain characteristics of longitudinal electro-kinetic wave (LEKW) in multi-component (electron, ion and colloid) quantum plasmas are studied. A compact linear dispersion relation for electro-kinetic waves in colloids laden quantum semiconductor plasmas has been derived by using quantum hydrodynamic (QHD) model.

Quantum wells (or more precisely multi-quantum wells, MQWs) are nanometer wide layers of a lower band gap semiconductor grown on a higher band gap barrier material.

For example GaAs/AlAs layers. The defining feature of MQWs is that the barriers are wide enough such that wavefunctions in adjacent quantum wells do not overlap.Phonon Raman Scattering in Semiconductors, Quantum Wells and Superlattices: Basic Results and Applications (Springer Tracts in Modern Physics) [Tobias Ruf] on *FREE* shipping on qualifying offers.

This book presents recent results of basic research in the field of Raman scattering by optic and acoustic phonons in semiconductorsCited by: 2.Semiconductor Quantum Dots. Categories: Physics\\Quantum Physics. Year: Publisher: World Scientific Other readers will always be interested in your opinion of the books you've read.

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