An edition of Nanoscale Phase Separation and Colossal Magnetoresistance (2003)

Nanoscale Phase Separation and Colossal Magnetoresistance

The Physics of Manganites and Related Compounds

by

Cover of: Nanoscale Phase Separation and Colossal Magnetoresistance by Elbio Dagotto, Elbio Dagotto
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Last edited by MARC Bot
September 28, 2024 | History
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An edition of Nanoscale Phase Separation and Colossal Magnetoresistance (2003)

Nanoscale Phase Separation and Colossal Magnetoresistance

The Physics of Manganites and Related Compounds

by

The study of the spontaneous formation of nanostructures in single crystals is rapidly developing into a dominant field of research in the subject area known as strongly correlated electrons. The structures appear to originate in the competition of phases. This book addresses nanoscale phase separation, focusing on the manganese oxides with colossal magnetoresistance (CMR). The text argues that nanostructures are at the heart of the CMR phenomenon. Other compounds are also addressed, such as high-temperature superconductors, where similar nanostructures exist. Brief contributions by distinguished researchers are also included. The book contains updated information directed at experts, both theorists and experimentalists. Beginning graduate students or postdocs will also benefit from the introductory material of the early chapters, and the book can be used as a reference for an advanced graduate course.

Publish Date
Publisher
Springer Berlin Heidelberg
Language
English
Pages
460

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Previews available in: English

Subjects

Mathematical physics, Physics, Nanostructures, Magnetoresistance, Manganese oxides, Electric resistance, Oxides, Condensed Matter Physics, Superconductivity Strongly Correlated Systems, Mathematical and Computational Physics Theoretical, Mathematical Methods in Physics, Numerical and Computational Physics

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Cover of: Nanoscale Phase Separation and Colossal Magnetoresistance
Nanoscale Phase Separation and Colossal Magnetoresistance: The Physics of Manganites and Related Compounds
2003, Springer Berlin Heidelberg
electronic resource : in English
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Book Details

Table of Contents

1. Why Manganites Are Interesting
2. The Discovery of Manganites and the Colossal Magnetoresistance Effect
3. Phase Diagrams and Basic Properties of Manganites
4. Preliminary Theoretical Considerations
5. Models for Manganites
6. The One-Orbital Model: Phase Diagram and Dominant Correlations
7. Monte Carlo Simulations and Applications to Manganite Models
8. Mean-Field Approximations
9. Two Orbitals Model and Orbital Order
10. Charge Ordering
11. Inhomogeneities in Manganites
12. Optical Conductivity
13. Glassy Behavior and Time Dependent Phenomena
14.-Inhomogeneities in La1-xSRxMnOx
15
Inhomogeneities in Layered Manganites
16. An Elementary Introduction to Percolation
17. Competition of Phases as the Origin of the CMR
18. Pseudogaps and Photoemission Experiments
19. Charge Ordered Nanoclusters above TC
20. Other Compounds with Large MR and/or Competing FM-AF Phases
21. Brief Introduction to Giant Magnetoresistance
22. Discussion and Open Questions.

Edition Notes

Online full text is restricted to subscribers.

Also available in print.

Mode of access: World Wide Web.

Published in
Berlin, Heidelberg
Series
Springer Series in Solid-State Sciences -- 136, Springer Series in Solid-State Sciences -- 136

Classifications

Dewey Decimal Class
530.41
Library of Congress
QC173.45-173.458

The Physical Object

Format
[electronic resource] :
Pagination
1 online resource (xviii, 460 p. 210 illus.)
Number of pages
460

ID Numbers

Open Library
OL27076591M
Internet Archive
nanoscalephasese00dago_362
ISBN 10
3642077536, 366205244X
ISBN 13
9783642077531, 9783662052440
OCLC/WorldCat
851379593

Source records

Internet Archive item record
Internet Archive item record
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Better World Books record
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History

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September 28, 2024 Edited by MARC Bot import existing book
March 1, 2022 Edited by ImportBot import existing book
February 26, 2022 Edited by ImportBot import existing book
July 5, 2019 Edited by MARC Bot import existing book
July 5, 2019 Created by MARC Bot Imported from Internet Archive item record