Verfügbarkeit: Layered structure effects as realisation of anizotropy in magnetic, galvanomagnetic and thermoelectric phenomena

Layered structure effects as realisation of anizotropy in magnetic, galvanomagnetic and thermoelectric phenomena:

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Bibliographische Detailangaben
1. Verfasser:	Gorskyi, Peter V. (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	New York Nova Science Publishers [2014]
Schriftenreihe:	Physics research and technology
Schlagworte:	Electromagnetism Thermomagnetism SCIENCE / Physics / Electricity SCIENCE / Physics / Electromagnetism Electromagnetism > Thermomagnetism
Online-Zugang:	FAW01 FAW02
Beschreibung:	Online resource; title from PDF title page (ebrary, viewed January 4, 2014)
Beschreibung:	1 online resource (367 pages) illustrations
ISBN:	9781629487168 1629487163 9781628088755

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505	8		\|a LAYERED STRUCTURE EFFECTS AS REALISATION OF ANIZOTROPY IN MAGNETIC, GALVANOMAGNETIC AND THERMOELECTRIC PHENOMENA; LAYERED STRUCTURE EFFECTS AS REALISATION OF ANIZOTROPY IN MAGNETIC, GALVANOMAGNETIC AND THERMOELECTRIC PHENOMENA; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; Chapter 1: INTRODUCTION; Chapter 2: ENERGY SPECTRUM OF CHARGE CARRIERS IN A LAYERED CRYSTAL AND THIN FILM ON ITS BASIS IN A QUANTIZING MAGNETIC FIELD.
505	8		\|a Chapter 3: ELECTRON DENSITY OF STATES AND STATISTIC PROPERTIES OF ELECTRON GAS IN LAYERED CRYSTALS AND THIN FILMS ON THEIR BASIS IN THE ABSENCE OF A MAGNETIC FIELDChapter 4: DENSITY OF STATES AND STATISTICAL PROPERTIES OF ELECTRON GAS IN LAYERED CRYSTALS IN THE PRESENCE OF INTERLAYER CHARGE ORDERING; Chapter 5: STATISTICAL PROPERTIES OF ELECTRON GAS IN LAYERED CRYSTALS AND THIN FILMS ON THEIR BASIS IN THE PRESENCE OF A QUANTIZING MAGNETIC FIELD UNDER STRONG DEGENERACY CONDITIONS.
505	8		\|a Chapter 6: STATISTICAL PROPERTIES OF ELECTRON GAS IN LAYERED CRYSTALS AND THIN FILMS ON THEIR BASIS IN THE PRESENCE OF A QUANTIZING MAGNETIC FIELD UNDER WEAK AND INTERMEDIATE DEGENERACY CONDITIONSChapter 7: STATISTICAL PROPERTIES OF ELECTRON GAS IN LAYERED CHARGE-ORDERED CRYSTALS IN A QUANTIZING MAGNETIC FIELD UNDER STRONG DEGENERACY CONDITIONS; Chapter 8: STATISTICAL PROPERTIES OF ELECTRON GAS INLAYERED CHARGE-ORDERED CRYSTALS IN AQUANTIZING MAGNETIC FIELD UNDER WEAK ANDINTERMEDIATE DEGENERACY CONDITIONS.
505	8		\|a Chapter 9: GENERAL FORMULAE FOR THE DIAMAGNETICSUSCEPTIBILITY OF ELECTRON GAS IN LAYEREDCRYSTALS AND THIN FILMS ON THEIR BASISChapter 10: LANDAU DIAMAGNETISM AND TOTAL MAGNETICSUSCEPTIBILITY OF ELECTRON GAS IN LAYEREDCRYSTALS AND THIN FILMS ON THEIR BASIS IN AWEAK MAGNETIC FIELD; Chapter 11: DIAMAGNETIC SUSCEPTIBILITY OF CHARGEORDEREDLAYERED CRYSTALS IN A WEAKMAGNETIC FIELD; Chapter 12: DE HAAS-VAN ALPHEN DIAMAGNETISM IN LAYEREDCRYSTALS AND THIN FILMS ON THEIR BASIS; Chapter 13: DE HAAS-VAN ALPHEN DIAMAGNETISM IN CHARGEORDEREDLAYERED CRYSTALS.
505	8		\|a Chapter 14: LANGEVIN DIAMAGNETISM IN LAYERED CRYSTALSAND THIN FILMS ON THEIR BASISChapter 15: LANGEVIN DIAMAGNETISM INCHARGE-ORDERED LAYERED CRYSTALS; Chapter 16: GENERAL FORMULAE FOR A LONGITUDINALELECTRIC CONDUCTIVITY OF A LAYERED CRYSTALIN A STRONG QUANTIZING MAGNETIC FIELD ANDGENERAL CONDITIONS FOR THE ORIGINATION OFLONGITUDINAL GALVANOMAGNETIC EFFECTS; Chapter 17: LONGITUDINAL ELECTRIC CONDUCTIVITY OFLAYERED CRYSTALS IN A QUANTIZING MAGNETICFIELD UNDER STRONG DEGENERACY CONDITIONSAND IN THE APPROXIMATION OF CONSTANTRELAXATION TIME.
505	8		\|a Many materials used in devices intended for converting the energy or information in its crystal structure belong to the layered ones. These materials include transition metal dichalcogenides, intercalated graphite compounds, semiconductors with superlattice, synthetic metals based on organic compounds, etc. This book examines the influence of nonparabolicity effects on magnetic, electric and thermoelectric properties of layered crystals with closed or transient Fermi surfaces, although most researchers believe that these effects can be pronounced only for high-open Fermi surfaces. The book can
650		4	\|a Electromagnetism
650		4	\|a Thermomagnetism
650		7	\|a SCIENCE / Physics / Electricity \|2 bisacsh
650		7	\|a SCIENCE / Physics / Electromagnetism \|2 bisacsh
650		7	\|a Electromagnetism \|2 fast
650		7	\|a Thermomagnetism \|2 fast
650		4	\|a Electromagnetism \|a Thermomagnetism
776	0	8	\|i Erscheint auch als \|n Druck-Ausgabe \|a Gorskyi, Peter V \|t . Layered Structure Effects as Realisation of Anizotropy in Magnetic, Galvanomagnetic and Thermoelectric Phenomena
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Datensatz im Suchindex

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contents	LAYERED STRUCTURE EFFECTS AS REALISATION OF ANIZOTROPY IN MAGNETIC, GALVANOMAGNETIC AND THERMOELECTRIC PHENOMENA; LAYERED STRUCTURE EFFECTS AS REALISATION OF ANIZOTROPY IN MAGNETIC, GALVANOMAGNETIC AND THERMOELECTRIC PHENOMENA; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; Chapter 1: INTRODUCTION; Chapter 2: ENERGY SPECTRUM OF CHARGE CARRIERS IN A LAYERED CRYSTAL AND THIN FILM ON ITS BASIS IN A QUANTIZING MAGNETIC FIELD. Chapter 3: ELECTRON DENSITY OF STATES AND STATISTIC PROPERTIES OF ELECTRON GAS IN LAYERED CRYSTALS AND THIN FILMS ON THEIR BASIS IN THE ABSENCE OF A MAGNETIC FIELDChapter 4: DENSITY OF STATES AND STATISTICAL PROPERTIES OF ELECTRON GAS IN LAYERED CRYSTALS IN THE PRESENCE OF INTERLAYER CHARGE ORDERING; Chapter 5: STATISTICAL PROPERTIES OF ELECTRON GAS IN LAYERED CRYSTALS AND THIN FILMS ON THEIR BASIS IN THE PRESENCE OF A QUANTIZING MAGNETIC FIELD UNDER STRONG DEGENERACY CONDITIONS. Chapter 6: STATISTICAL PROPERTIES OF ELECTRON GAS IN LAYERED CRYSTALS AND THIN FILMS ON THEIR BASIS IN THE PRESENCE OF A QUANTIZING MAGNETIC FIELD UNDER WEAK AND INTERMEDIATE DEGENERACY CONDITIONSChapter 7: STATISTICAL PROPERTIES OF ELECTRON GAS IN LAYERED CHARGE-ORDERED CRYSTALS IN A QUANTIZING MAGNETIC FIELD UNDER STRONG DEGENERACY CONDITIONS; Chapter 8: STATISTICAL PROPERTIES OF ELECTRON GAS INLAYERED CHARGE-ORDERED CRYSTALS IN AQUANTIZING MAGNETIC FIELD UNDER WEAK ANDINTERMEDIATE DEGENERACY CONDITIONS. Chapter 9: GENERAL FORMULAE FOR THE DIAMAGNETICSUSCEPTIBILITY OF ELECTRON GAS IN LAYEREDCRYSTALS AND THIN FILMS ON THEIR BASISChapter 10: LANDAU DIAMAGNETISM AND TOTAL MAGNETICSUSCEPTIBILITY OF ELECTRON GAS IN LAYEREDCRYSTALS AND THIN FILMS ON THEIR BASIS IN AWEAK MAGNETIC FIELD; Chapter 11: DIAMAGNETIC SUSCEPTIBILITY OF CHARGEORDEREDLAYERED CRYSTALS IN A WEAKMAGNETIC FIELD; Chapter 12: DE HAAS-VAN ALPHEN DIAMAGNETISM IN LAYEREDCRYSTALS AND THIN FILMS ON THEIR BASIS; Chapter 13: DE HAAS-VAN ALPHEN DIAMAGNETISM IN CHARGEORDEREDLAYERED CRYSTALS. Chapter 14: LANGEVIN DIAMAGNETISM IN LAYERED CRYSTALSAND THIN FILMS ON THEIR BASISChapter 15: LANGEVIN DIAMAGNETISM INCHARGE-ORDERED LAYERED CRYSTALS; Chapter 16: GENERAL FORMULAE FOR A LONGITUDINALELECTRIC CONDUCTIVITY OF A LAYERED CRYSTALIN A STRONG QUANTIZING MAGNETIC FIELD ANDGENERAL CONDITIONS FOR THE ORIGINATION OFLONGITUDINAL GALVANOMAGNETIC EFFECTS; Chapter 17: LONGITUDINAL ELECTRIC CONDUCTIVITY OFLAYERED CRYSTALS IN A QUANTIZING MAGNETICFIELD UNDER STRONG DEGENERACY CONDITIONSAND IN THE APPROXIMATION OF CONSTANTRELAXATION TIME. Many materials used in devices intended for converting the energy or information in its crystal structure belong to the layered ones. These materials include transition metal dichalcogenides, intercalated graphite compounds, semiconductors with superlattice, synthetic metals based on organic compounds, etc. This book examines the influence of nonparabolicity effects on magnetic, electric and thermoelectric properties of layered crystals with closed or transient Fermi surfaces, although most researchers believe that these effects can be pronounced only for high-open Fermi surfaces. The book can
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series2	Physics research and technology
spelling	Gorskyi, Peter V. Verfasser aut Layered structure effects as realisation of anizotropy in magnetic, galvanomagnetic and thermoelectric phenomena Peter V. Gorskyi New York Nova Science Publishers [2014] © 2014 1 online resource (367 pages) illustrations txt rdacontent c rdamedia cr rdacarrier Physics research and technology Online resource; title from PDF title page (ebrary, viewed January 4, 2014) LAYERED STRUCTURE EFFECTS AS REALISATION OF ANIZOTROPY IN MAGNETIC, GALVANOMAGNETIC AND THERMOELECTRIC PHENOMENA; LAYERED STRUCTURE EFFECTS AS REALISATION OF ANIZOTROPY IN MAGNETIC, GALVANOMAGNETIC AND THERMOELECTRIC PHENOMENA; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; Chapter 1: INTRODUCTION; Chapter 2: ENERGY SPECTRUM OF CHARGE CARRIERS IN A LAYERED CRYSTAL AND THIN FILM ON ITS BASIS IN A QUANTIZING MAGNETIC FIELD. Chapter 3: ELECTRON DENSITY OF STATES AND STATISTIC PROPERTIES OF ELECTRON GAS IN LAYERED CRYSTALS AND THIN FILMS ON THEIR BASIS IN THE ABSENCE OF A MAGNETIC FIELDChapter 4: DENSITY OF STATES AND STATISTICAL PROPERTIES OF ELECTRON GAS IN LAYERED CRYSTALS IN THE PRESENCE OF INTERLAYER CHARGE ORDERING; Chapter 5: STATISTICAL PROPERTIES OF ELECTRON GAS IN LAYERED CRYSTALS AND THIN FILMS ON THEIR BASIS IN THE PRESENCE OF A QUANTIZING MAGNETIC FIELD UNDER STRONG DEGENERACY CONDITIONS. Chapter 6: STATISTICAL PROPERTIES OF ELECTRON GAS IN LAYERED CRYSTALS AND THIN FILMS ON THEIR BASIS IN THE PRESENCE OF A QUANTIZING MAGNETIC FIELD UNDER WEAK AND INTERMEDIATE DEGENERACY CONDITIONSChapter 7: STATISTICAL PROPERTIES OF ELECTRON GAS IN LAYERED CHARGE-ORDERED CRYSTALS IN A QUANTIZING MAGNETIC FIELD UNDER STRONG DEGENERACY CONDITIONS; Chapter 8: STATISTICAL PROPERTIES OF ELECTRON GAS INLAYERED CHARGE-ORDERED CRYSTALS IN AQUANTIZING MAGNETIC FIELD UNDER WEAK ANDINTERMEDIATE DEGENERACY CONDITIONS. Chapter 9: GENERAL FORMULAE FOR THE DIAMAGNETICSUSCEPTIBILITY OF ELECTRON GAS IN LAYEREDCRYSTALS AND THIN FILMS ON THEIR BASISChapter 10: LANDAU DIAMAGNETISM AND TOTAL MAGNETICSUSCEPTIBILITY OF ELECTRON GAS IN LAYEREDCRYSTALS AND THIN FILMS ON THEIR BASIS IN AWEAK MAGNETIC FIELD; Chapter 11: DIAMAGNETIC SUSCEPTIBILITY OF CHARGEORDEREDLAYERED CRYSTALS IN A WEAKMAGNETIC FIELD; Chapter 12: DE HAAS-VAN ALPHEN DIAMAGNETISM IN LAYEREDCRYSTALS AND THIN FILMS ON THEIR BASIS; Chapter 13: DE HAAS-VAN ALPHEN DIAMAGNETISM IN CHARGEORDEREDLAYERED CRYSTALS. Chapter 14: LANGEVIN DIAMAGNETISM IN LAYERED CRYSTALSAND THIN FILMS ON THEIR BASISChapter 15: LANGEVIN DIAMAGNETISM INCHARGE-ORDERED LAYERED CRYSTALS; Chapter 16: GENERAL FORMULAE FOR A LONGITUDINALELECTRIC CONDUCTIVITY OF A LAYERED CRYSTALIN A STRONG QUANTIZING MAGNETIC FIELD ANDGENERAL CONDITIONS FOR THE ORIGINATION OFLONGITUDINAL GALVANOMAGNETIC EFFECTS; Chapter 17: LONGITUDINAL ELECTRIC CONDUCTIVITY OFLAYERED CRYSTALS IN A QUANTIZING MAGNETICFIELD UNDER STRONG DEGENERACY CONDITIONSAND IN THE APPROXIMATION OF CONSTANTRELAXATION TIME. Many materials used in devices intended for converting the energy or information in its crystal structure belong to the layered ones. These materials include transition metal dichalcogenides, intercalated graphite compounds, semiconductors with superlattice, synthetic metals based on organic compounds, etc. This book examines the influence of nonparabolicity effects on magnetic, electric and thermoelectric properties of layered crystals with closed or transient Fermi surfaces, although most researchers believe that these effects can be pronounced only for high-open Fermi surfaces. The book can Electromagnetism Thermomagnetism SCIENCE / Physics / Electricity bisacsh SCIENCE / Physics / Electromagnetism bisacsh Electromagnetism fast Thermomagnetism fast Electromagnetism Thermomagnetism Erscheint auch als Druck-Ausgabe Gorskyi, Peter V . Layered Structure Effects as Realisation of Anizotropy in Magnetic, Galvanomagnetic and Thermoelectric Phenomena
spellingShingle	Gorskyi, Peter V. Layered structure effects as realisation of anizotropy in magnetic, galvanomagnetic and thermoelectric phenomena LAYERED STRUCTURE EFFECTS AS REALISATION OF ANIZOTROPY IN MAGNETIC, GALVANOMAGNETIC AND THERMOELECTRIC PHENOMENA; LAYERED STRUCTURE EFFECTS AS REALISATION OF ANIZOTROPY IN MAGNETIC, GALVANOMAGNETIC AND THERMOELECTRIC PHENOMENA; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; Chapter 1: INTRODUCTION; Chapter 2: ENERGY SPECTRUM OF CHARGE CARRIERS IN A LAYERED CRYSTAL AND THIN FILM ON ITS BASIS IN A QUANTIZING MAGNETIC FIELD. Chapter 3: ELECTRON DENSITY OF STATES AND STATISTIC PROPERTIES OF ELECTRON GAS IN LAYERED CRYSTALS AND THIN FILMS ON THEIR BASIS IN THE ABSENCE OF A MAGNETIC FIELDChapter 4: DENSITY OF STATES AND STATISTICAL PROPERTIES OF ELECTRON GAS IN LAYERED CRYSTALS IN THE PRESENCE OF INTERLAYER CHARGE ORDERING; Chapter 5: STATISTICAL PROPERTIES OF ELECTRON GAS IN LAYERED CRYSTALS AND THIN FILMS ON THEIR BASIS IN THE PRESENCE OF A QUANTIZING MAGNETIC FIELD UNDER STRONG DEGENERACY CONDITIONS. Chapter 6: STATISTICAL PROPERTIES OF ELECTRON GAS IN LAYERED CRYSTALS AND THIN FILMS ON THEIR BASIS IN THE PRESENCE OF A QUANTIZING MAGNETIC FIELD UNDER WEAK AND INTERMEDIATE DEGENERACY CONDITIONSChapter 7: STATISTICAL PROPERTIES OF ELECTRON GAS IN LAYERED CHARGE-ORDERED CRYSTALS IN A QUANTIZING MAGNETIC FIELD UNDER STRONG DEGENERACY CONDITIONS; Chapter 8: STATISTICAL PROPERTIES OF ELECTRON GAS INLAYERED CHARGE-ORDERED CRYSTALS IN AQUANTIZING MAGNETIC FIELD UNDER WEAK ANDINTERMEDIATE DEGENERACY CONDITIONS. Chapter 9: GENERAL FORMULAE FOR THE DIAMAGNETICSUSCEPTIBILITY OF ELECTRON GAS IN LAYEREDCRYSTALS AND THIN FILMS ON THEIR BASISChapter 10: LANDAU DIAMAGNETISM AND TOTAL MAGNETICSUSCEPTIBILITY OF ELECTRON GAS IN LAYEREDCRYSTALS AND THIN FILMS ON THEIR BASIS IN AWEAK MAGNETIC FIELD; Chapter 11: DIAMAGNETIC SUSCEPTIBILITY OF CHARGEORDEREDLAYERED CRYSTALS IN A WEAKMAGNETIC FIELD; Chapter 12: DE HAAS-VAN ALPHEN DIAMAGNETISM IN LAYEREDCRYSTALS AND THIN FILMS ON THEIR BASIS; Chapter 13: DE HAAS-VAN ALPHEN DIAMAGNETISM IN CHARGEORDEREDLAYERED CRYSTALS. Chapter 14: LANGEVIN DIAMAGNETISM IN LAYERED CRYSTALSAND THIN FILMS ON THEIR BASISChapter 15: LANGEVIN DIAMAGNETISM INCHARGE-ORDERED LAYERED CRYSTALS; Chapter 16: GENERAL FORMULAE FOR A LONGITUDINALELECTRIC CONDUCTIVITY OF A LAYERED CRYSTALIN A STRONG QUANTIZING MAGNETIC FIELD ANDGENERAL CONDITIONS FOR THE ORIGINATION OFLONGITUDINAL GALVANOMAGNETIC EFFECTS; Chapter 17: LONGITUDINAL ELECTRIC CONDUCTIVITY OFLAYERED CRYSTALS IN A QUANTIZING MAGNETICFIELD UNDER STRONG DEGENERACY CONDITIONSAND IN THE APPROXIMATION OF CONSTANTRELAXATION TIME. Many materials used in devices intended for converting the energy or information in its crystal structure belong to the layered ones. These materials include transition metal dichalcogenides, intercalated graphite compounds, semiconductors with superlattice, synthetic metals based on organic compounds, etc. This book examines the influence of nonparabolicity effects on magnetic, electric and thermoelectric properties of layered crystals with closed or transient Fermi surfaces, although most researchers believe that these effects can be pronounced only for high-open Fermi surfaces. The book can Electromagnetism Thermomagnetism SCIENCE / Physics / Electricity bisacsh SCIENCE / Physics / Electromagnetism bisacsh Electromagnetism fast Thermomagnetism fast Electromagnetism Thermomagnetism
title	Layered structure effects as realisation of anizotropy in magnetic, galvanomagnetic and thermoelectric phenomena
title_auth	Layered structure effects as realisation of anizotropy in magnetic, galvanomagnetic and thermoelectric phenomena
title_exact_search	Layered structure effects as realisation of anizotropy in magnetic, galvanomagnetic and thermoelectric phenomena
title_full	Layered structure effects as realisation of anizotropy in magnetic, galvanomagnetic and thermoelectric phenomena Peter V. Gorskyi
title_fullStr	Layered structure effects as realisation of anizotropy in magnetic, galvanomagnetic and thermoelectric phenomena Peter V. Gorskyi
title_full_unstemmed	Layered structure effects as realisation of anizotropy in magnetic, galvanomagnetic and thermoelectric phenomena Peter V. Gorskyi
title_short	Layered structure effects as realisation of anizotropy in magnetic, galvanomagnetic and thermoelectric phenomena
title_sort	layered structure effects as realisation of anizotropy in magnetic galvanomagnetic and thermoelectric phenomena
topic	Electromagnetism Thermomagnetism SCIENCE / Physics / Electricity bisacsh SCIENCE / Physics / Electromagnetism bisacsh Electromagnetism fast Thermomagnetism fast Electromagnetism Thermomagnetism
topic_facet	Electromagnetism Thermomagnetism SCIENCE / Physics / Electricity SCIENCE / Physics / Electromagnetism Electromagnetism Thermomagnetism
work_keys_str_mv	AT gorskyipeterv layeredstructureeffectsasrealisationofanizotropyinmagneticgalvanomagneticandthermoelectricphenomena

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