Anomalous Effects in Simple Metals
Foreword: Dresselhaus, Mildred S.; Dresselhaus, Gene
(Sprache: Englisch)
A carefully commented collection of reprints to document the many anomalous effects in simple metals that have violated expectations. It presents the work of Albert Overhauser who pioneered modern electron gas theory and invented the nuclear Overhauser effect.
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A carefully commented collection of reprints to document the many anomalous effects in simple metals that have violated expectations. It presents the work of Albert Overhauser who pioneered modern electron gas theory and invented the nuclear Overhauser effect.
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Klappentext zu „Anomalous Effects in Simple Metals “
Using potassium as an example, this work presents a unique approach to the anomalous effects in metals, resulting in knowledge that can be applied to similar materials.Most theoretical predictions on the electric, magnetic, optical, and thermal properties of a simple metal do - surprisingly - not agree with experimental behavior found in alkali metals. The purpose of this volume is to document the many phenomena that have violated expectations. It collects in one place the research by Albert Overhauser, one of the pioneers of the field. His and his collaborators work has led to a unified synthesis of alkali metal peculiarities. The unique collection of 65 reprint papers, commented where necessary to explain the context and perspective, is preceded by a thorough and well paced introduction.The book is meant to advanced solid state physics and science historians.It might also serve as additional reading in advanced solid state physics courses.With a foreword by Mildred and Gene Dresselhaus
Inhaltsverzeichnis zu „Anomalous Effects in Simple Metals “
Part I Introduction and OverviewPart II Reprints of SDW or CDW Phenomena in Simple MetalsR1 Giant Spin Density WavesR2 Mechanism of Antiferromagnetism in Dilute AlloysR3 Spin Density Waves in an Electron GasR4 Spin- Density- Wave Antiferromagnetism in PotassiumR5 Helicon Propagation in Metals Near the Cyclotron EdgeR6 Exchange and Correlation Instabilities of Simple MetalsR7 Splitting of Conduction- Electron Spin Resonance in PotassiumR8 Magnetoresistance of PotassiumR9 Exchange Potentials in a Nonuniform Electron GasR10 Observability of Charge- Density Waves by Neutron DiffractionR11 Questions About the Mayer- El Naby Optical Anomaly in PotassiumR12 Theory of the Residual Resistivity Anomaly in PotassiumR13 Electromagnetic Generation of Ultrasound in MetalsR14 Dynamics of an Incommensurate Charge- Density WaveR15 Magnetodynamics of Incommensurate Charge- Density WavesR16 Phase Excitations of Charge Sensity WavesR17 Frictional Force on a Drifting Charge- Density WaveR18 Attenuation of Phase Excitations in Charge- Density Wave SystemsR19 Charge- Density Waves and Isotropic MetalsR20 Residual- Resistivity Anisotropy in PotassiumR21 Detection of a Charge- Density Wave by Angle- Resolved PhotoemissionR22 Ultra- low- temperature Anomalies in Heat Capacities of Metals Caused by Charge- density WavesR23 Analysis of the Anomalous Temperature- dependent Resistivity on Potassium Below 1.6 KR24 Wave- Vector Orientation of a Charge- Density Wave in PotassiumR25 Theory of Transversce Phasons in PotassiumR26 Charge- Density- Wave Satellite Intensity in PotassiumR27 Theory of Electron- Phason Scattering and the Low- temperature Resistivity of PotassiumR28 Structure Factor of a Charge- Density WaveR29 Effective- Medium Theory of Open- Orbit InclusionsR30 Theory of the Open- Orbit Magnetoresistance of PotassiumR31 Open- Orbit Magnetoresistance Spectra of PotassiumR32 The Open Orbits of PotassiumR33 Open- Orbits Effects in Thermal MagnetoresistanceR34 Insights in Many- Electron
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Theory From the Charge Density Wave Structure of PotassiumR35 Charge Density Wave Phenomena in PotassiumR36 Energy Spectrum of an Incommensurate Charge- Density Wave: Potassium and SodiumR37 Theory of Charge- Density- Wave- Spin- Density- Wave MixingR38 Crystal Structure of Lithium at 4.2 KR39 Theory of Induced- Torque Anomalies in PotassiumR40 Further Evidence of an Anisotropic Hall Coefficient in PotassiumR41 Field Dependence of the Residual- Resistivity Anisotropy in Sodium and PotassiumR42 Effect of an Inhomogeneuous Resistivity on the Induced- Torque Pattern of a Metal SphereR43 Infrared- absorption Spectrum of an Incommensurate Charge- Density Wave: Pottassium and SodiumR44 Dynamic M-shell Effects in the Ultraviolet Absorption Spectrum of Metallic PotasiumR45 Broken Symmentry in Simple MetalsR46 Photoemission from the Charge- Density Wave in Na and KR47 Phason Narrowing of the Nuclear Magnetic Resonance in PottassiumR48 Theory of the Perpendicular- Field Cyclotron- Resonance Anomaly in PotassiumR49 Direct Observation of the Charge-Density Wave in Potassium by Neutron Diffraction R50 Phason Anisotropy and the Nuclear Magnetic Resonance in Potassium R51 Satellite-Intensity Patterns From the Charge-Density Wave in Potassium R52 Magnetoserpentine Effect in Single-Crystal Potassium R53 Charge Density Wave Satellites in Potassium? R54 Fermi-Surface Structure of Potassium in the Charge-Density-Wave StateR55 Neutron-Diffraction Structure in Potassium Near the [011] and [022] Bragg Points R56 Quantum Oscillations From the Cylindrical Fermi-Surface Sheet of Potassium Created by the Charge-Density Wave R57 Magnetotransmission of Microwaves Through Potassium SlabsR58 Microwave Surface Resistance of Potassium in a Perpendicular Magnetic Field: Effects of the Charge-Density WaveR59 Cyclotron-Resonance Transmission Through Potassium in a Perpendicular Magnetic Field: Effects of the Charge-Density WaveR60 Influence of Electron-Electron Scattering on the Electrical Resistivity Caused by Oriented Line ImperfectionsR61 Theory of the Fourfold Induced-Torque Anisotropy in Potassium R62 Observation of Phasons in Metallic Rubidium R63 Theory of Induced-Torque Anomalies in Potassium R64 Magnetoflicker Noise in Na and KR65 Influence of Charge-Density-Wave Structure on Paramagnetic Spin Waves in Alkali MetalsPart III Unexpected Phenomena Exhibited by Metallic Potassium
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Autoren-Porträt von Albert Overhauser
Albert Overhauser graduated in Physics and Mathematics at the University of California, Berkeley. In 1951 he was awarded the Ph.D. in Physics for research carried out under the supervision of Charles Kittel. He began his professional career at the University of Illinois where he developed his famous theory of dynamic nuclear polarization which shortly after its experimental confirmation became known by its current name, the Overhauser effect. In 1953 he went to Cornell, which he left in 1958 to accept a position at Ford. In 1973 he became Professor of Physics at Purdue University. Albert Overhauser has received numerous distiguished honors, and in 1994 was being awarded the National Medal of Science; the highest honor the United States bestows on its citizens for scientific achievement, "For his fundamental contributions to understanding the physics of solids, to theoretical physics and for the impact of his technological advances..."
Bibliographische Angaben
- Autor: Albert Overhauser
- 2010, XVIII, 688 Seiten, 315 Schwarz-Weiß-Abbildungen, 400 Abbildungen, Maße: 17,8 x 24,8 cm, Gebunden, Englisch
- Verlag: Wiley-VCH
- ISBN-10: 3527408592
- ISBN-13: 9783527408597
- Erscheinungsdatum: 27.10.2010
Sprache:
Englisch
Rezension zu „Anomalous Effects in Simple Metals “
"Using potassium as an example, this work presents a unique approach to the anomalous effects in metals, resulting in knowledge that can be applied to similar materials." (ETDE Energy database, 14 February 2011)
Pressezitat
"Using potassium as an example, this work presents a unique approach to the anomalous effects in metals, resulting in knowledge that can be applied to similar materials." (ETDE Energy database, 14 February 2011)
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