Colossal magnetoresistance and phase separation in magnetic semiconductors:
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| Format: | Elektronisch E-Book |
| Sprache: | English |
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London
Imperial College Press
c2002
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| Online-Zugang: | FAW01 FAW02 Volltext |
| Beschreibung: | Includes bibliographical references (p. 431-453) and index Ch. 1. Introduction and necessary information about non-magnetic semiconductors and insulating magnetic systems. 1.1. Introduction. 1.2. Some basic notions of semiconductor physics. 1.3. Some basic notions of the physics of magnetic phenomena -- ch. 2. Principles of theory of conducting magnetic systems. 2.1. Magnetic Hamiltonians of conducting magnetic systems. 2.2. Effect of magnetic ordering on energy of charge carriers. 2.3. Double exchange. 2.4. RKKY indirect exchange. 2.5. Non-Heisenberg exchange in magnetic semiconductors -- ch. 3 Non-degenerate ferromagnetic semiconductors. 3.1. Experimental data. 3.2. Theory: free charge carrier energy spectrum and giant optical red shift. 3.3. Magnetoimpurity theory of non-degenerate ferromagnetic semiconductors -- - ch. 4. Non-degenerate antiferromagnetic semiconductors and self-trapped states. 4.1. Experimental data. 4.2. Electron energies in uniform two-sublattice structures. Magnetic strings. 4.3. Ferrons. 4.4. Magnetoimpurity theory of non-degenerate antiferromagnetic and paramagnetic semiconductors -- ch. 5. Degenerate ferromagnetic semiconductors. 5.1. Magnetic properties. 5.2. Resistivity and magnetoresistance of degenerate ferromagnetic semiconductors. 5.3. Magnetoimpurity theory of resistivity peak and colossal magnetoresistance. 5.4. Oxygen off-stoichiometry insulator-to-metal transition and isotope effects in degenerate semiconductors. 5.5. The inverse magnetoelectric effect and magnetoelectric waves. 5.6. Surface magnetoelectric effects -- - ch. 6. Degenerate antiferromagnetic semiconductors and phase separation. 6.1. Instability range of collinear magnetic structures. 6.2. Instability of canted antiferromagnetic ordering. 6.3. Electron-magnetic phase separation. 6.4. Magnetic-impurity phase separation -- ch. 7. Lanthanum manganites. 7.1. Crystallographic properties of undoped lanthanum manganites. 7.2. Magnetic properties of manganites. 7.3. Non-uniform states intermediate between ferromagnetic and antiferromagnetic. 7.4. Overdoped samples: charge ordering and stripes. 7.5. Underdoped samples: charge ordering and the problem of an insulating ferromagnetic state. 7.6. Transport and magnetotransport properties of the La manganites -- ch. 8. Other manganites. 8.1. Pr-based manganites. 8.2. Nd-based and less common manganites. 8.3. Layered magnetic manganites -- - ch. 9. Specific effects and theory of manganites. 9.1. Photoinduced insulator-metal transition in manganites. 9.2. The oxygen isotope effect in the manganites. 9.3. Theories of manganites Colossal magnetoresistance materials, to which manganites and conventional ferromagnetic semiconductors belong, draw great attention because of their intriguing physical properties and the excellent prospects for their practical applications in electronic devices. In addition, magnetic semiconductors are basic materials for high-temperature conductors, and it is impossible to construct a theory of the latter without elucidating properties of the former.This book presents theoretical and experimental results on manganites and conventional magnetic semiconductors, with emphasis on the former. It is addressed mainly to researchers dealing with manganites or high-temperature superconductors, but is also useful for undergraduate and graduate students |
| Beschreibung: | 1 Online-Ressource (xvi, 457 p.) |
| ISBN: | 1281869430 1860942954 1860949665 9781281869432 9781860942952 9781860949661 |
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| 245 | 1 | 0 | |a Colossal magnetoresistance and phase separation in magnetic semiconductors |c Eduard L. Nagaev |
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| 500 | |a Ch. 1. Introduction and necessary information about non-magnetic semiconductors and insulating magnetic systems. 1.1. Introduction. 1.2. Some basic notions of semiconductor physics. 1.3. Some basic notions of the physics of magnetic phenomena -- ch. 2. Principles of theory of conducting magnetic systems. 2.1. Magnetic Hamiltonians of conducting magnetic systems. 2.2. Effect of magnetic ordering on energy of charge carriers. 2.3. Double exchange. 2.4. RKKY indirect exchange. 2.5. Non-Heisenberg exchange in magnetic semiconductors -- ch. 3 Non-degenerate ferromagnetic semiconductors. 3.1. Experimental data. 3.2. Theory: free charge carrier energy spectrum and giant optical red shift. 3.3. Magnetoimpurity theory of non-degenerate ferromagnetic semiconductors -- | ||
| 500 | |a - ch. 4. Non-degenerate antiferromagnetic semiconductors and self-trapped states. 4.1. Experimental data. 4.2. Electron energies in uniform two-sublattice structures. Magnetic strings. 4.3. Ferrons. 4.4. Magnetoimpurity theory of non-degenerate antiferromagnetic and paramagnetic semiconductors -- ch. 5. Degenerate ferromagnetic semiconductors. 5.1. Magnetic properties. 5.2. Resistivity and magnetoresistance of degenerate ferromagnetic semiconductors. 5.3. Magnetoimpurity theory of resistivity peak and colossal magnetoresistance. 5.4. Oxygen off-stoichiometry insulator-to-metal transition and isotope effects in degenerate semiconductors. 5.5. The inverse magnetoelectric effect and magnetoelectric waves. 5.6. Surface magnetoelectric effects -- | ||
| 500 | |a - ch. 6. Degenerate antiferromagnetic semiconductors and phase separation. 6.1. Instability range of collinear magnetic structures. 6.2. Instability of canted antiferromagnetic ordering. 6.3. Electron-magnetic phase separation. 6.4. Magnetic-impurity phase separation -- ch. 7. Lanthanum manganites. 7.1. Crystallographic properties of undoped lanthanum manganites. 7.2. Magnetic properties of manganites. 7.3. Non-uniform states intermediate between ferromagnetic and antiferromagnetic. 7.4. Overdoped samples: charge ordering and stripes. 7.5. Underdoped samples: charge ordering and the problem of an insulating ferromagnetic state. 7.6. Transport and magnetotransport properties of the La manganites -- ch. 8. Other manganites. 8.1. Pr-based manganites. 8.2. Nd-based and less common manganites. 8.3. Layered magnetic manganites -- | ||
| 500 | |a - ch. 9. Specific effects and theory of manganites. 9.1. Photoinduced insulator-metal transition in manganites. 9.2. The oxygen isotope effect in the manganites. 9.3. Theories of manganites | ||
| 500 | |a Colossal magnetoresistance materials, to which manganites and conventional ferromagnetic semiconductors belong, draw great attention because of their intriguing physical properties and the excellent prospects for their practical applications in electronic devices. In addition, magnetic semiconductors are basic materials for high-temperature conductors, and it is impossible to construct a theory of the latter without elucidating properties of the former.This book presents theoretical and experimental results on manganites and conventional magnetic semiconductors, with emphasis on the former. It is addressed mainly to researchers dealing with manganites or high-temperature superconductors, but is also useful for undergraduate and graduate students | ||
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| 650 | 4 | |a Magnetic semiconductors | |
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| 650 | 4 | |a Manganite | |
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Datensatz im Suchindex
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| author | Nagaev, Ėduard Leonovich |
| author_facet | Nagaev, Ėduard Leonovich |
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| author_sort | Nagaev, Ėduard Leonovich |
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| dewey-ones | 537 - Electricity and electronics |
| dewey-raw | 537.6/226 |
| dewey-search | 537.6/226 |
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| dewey-tens | 530 - Physics |
| discipline | Physik |
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| illustrated | Not Illustrated |
| indexdate | 2024-07-10T07:19:10Z |
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| isbn | 1281869430 1860942954 1860949665 9781281869432 9781860942952 9781860949661 |
| language | English |
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| spelling | Nagaev, Ėduard Leonovich Verfasser aut Colossal magnetoresistance and phase separation in magnetic semiconductors Eduard L. Nagaev London Imperial College Press c2002 1 Online-Ressource (xvi, 457 p.) txt rdacontent c rdamedia cr rdacarrier Includes bibliographical references (p. 431-453) and index Ch. 1. Introduction and necessary information about non-magnetic semiconductors and insulating magnetic systems. 1.1. Introduction. 1.2. Some basic notions of semiconductor physics. 1.3. Some basic notions of the physics of magnetic phenomena -- ch. 2. Principles of theory of conducting magnetic systems. 2.1. Magnetic Hamiltonians of conducting magnetic systems. 2.2. Effect of magnetic ordering on energy of charge carriers. 2.3. Double exchange. 2.4. RKKY indirect exchange. 2.5. Non-Heisenberg exchange in magnetic semiconductors -- ch. 3 Non-degenerate ferromagnetic semiconductors. 3.1. Experimental data. 3.2. Theory: free charge carrier energy spectrum and giant optical red shift. 3.3. Magnetoimpurity theory of non-degenerate ferromagnetic semiconductors -- - ch. 4. Non-degenerate antiferromagnetic semiconductors and self-trapped states. 4.1. Experimental data. 4.2. Electron energies in uniform two-sublattice structures. Magnetic strings. 4.3. Ferrons. 4.4. Magnetoimpurity theory of non-degenerate antiferromagnetic and paramagnetic semiconductors -- ch. 5. Degenerate ferromagnetic semiconductors. 5.1. Magnetic properties. 5.2. Resistivity and magnetoresistance of degenerate ferromagnetic semiconductors. 5.3. Magnetoimpurity theory of resistivity peak and colossal magnetoresistance. 5.4. Oxygen off-stoichiometry insulator-to-metal transition and isotope effects in degenerate semiconductors. 5.5. The inverse magnetoelectric effect and magnetoelectric waves. 5.6. Surface magnetoelectric effects -- - ch. 6. Degenerate antiferromagnetic semiconductors and phase separation. 6.1. Instability range of collinear magnetic structures. 6.2. Instability of canted antiferromagnetic ordering. 6.3. Electron-magnetic phase separation. 6.4. Magnetic-impurity phase separation -- ch. 7. Lanthanum manganites. 7.1. Crystallographic properties of undoped lanthanum manganites. 7.2. Magnetic properties of manganites. 7.3. Non-uniform states intermediate between ferromagnetic and antiferromagnetic. 7.4. Overdoped samples: charge ordering and stripes. 7.5. Underdoped samples: charge ordering and the problem of an insulating ferromagnetic state. 7.6. Transport and magnetotransport properties of the La manganites -- ch. 8. Other manganites. 8.1. Pr-based manganites. 8.2. Nd-based and less common manganites. 8.3. Layered magnetic manganites -- - ch. 9. Specific effects and theory of manganites. 9.1. Photoinduced insulator-metal transition in manganites. 9.2. The oxygen isotope effect in the manganites. 9.3. Theories of manganites Colossal magnetoresistance materials, to which manganites and conventional ferromagnetic semiconductors belong, draw great attention because of their intriguing physical properties and the excellent prospects for their practical applications in electronic devices. In addition, magnetic semiconductors are basic materials for high-temperature conductors, and it is impossible to construct a theory of the latter without elucidating properties of the former.This book presents theoretical and experimental results on manganites and conventional magnetic semiconductors, with emphasis on the former. It is addressed mainly to researchers dealing with manganites or high-temperature superconductors, but is also useful for undergraduate and graduate students Magnetischer Halbleiter swd Riesenmagnetowiderstand swd SCIENCE / Physics / Electricity bisacsh Magnetic semiconductors fast Magnetoresistance fast Manganite fast Magnetic semiconductors Magnetoresistance Manganite Magnetischer Halbleiter (DE-588)4168571-4 gnd rswk-swf Riesenmagnetowiderstand (DE-588)4591272-5 gnd rswk-swf Magnetischer Halbleiter (DE-588)4168571-4 s Riesenmagnetowiderstand (DE-588)4591272-5 s 1\p DE-604 http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=516701 Aggregator Volltext 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Nagaev, Ėduard Leonovich Colossal magnetoresistance and phase separation in magnetic semiconductors Magnetischer Halbleiter swd Riesenmagnetowiderstand swd SCIENCE / Physics / Electricity bisacsh Magnetic semiconductors fast Magnetoresistance fast Manganite fast Magnetic semiconductors Magnetoresistance Manganite Magnetischer Halbleiter (DE-588)4168571-4 gnd Riesenmagnetowiderstand (DE-588)4591272-5 gnd |
| subject_GND | (DE-588)4168571-4 (DE-588)4591272-5 |
| title | Colossal magnetoresistance and phase separation in magnetic semiconductors |
| title_auth | Colossal magnetoresistance and phase separation in magnetic semiconductors |
| title_exact_search | Colossal magnetoresistance and phase separation in magnetic semiconductors |
| title_full | Colossal magnetoresistance and phase separation in magnetic semiconductors Eduard L. Nagaev |
| title_fullStr | Colossal magnetoresistance and phase separation in magnetic semiconductors Eduard L. Nagaev |
| title_full_unstemmed | Colossal magnetoresistance and phase separation in magnetic semiconductors Eduard L. Nagaev |
| title_short | Colossal magnetoresistance and phase separation in magnetic semiconductors |
| title_sort | colossal magnetoresistance and phase separation in magnetic semiconductors |
| topic | Magnetischer Halbleiter swd Riesenmagnetowiderstand swd SCIENCE / Physics / Electricity bisacsh Magnetic semiconductors fast Magnetoresistance fast Manganite fast Magnetic semiconductors Magnetoresistance Manganite Magnetischer Halbleiter (DE-588)4168571-4 gnd Riesenmagnetowiderstand (DE-588)4591272-5 gnd |
| topic_facet | Magnetischer Halbleiter Riesenmagnetowiderstand SCIENCE / Physics / Electricity Magnetic semiconductors Magnetoresistance Manganite |
| url | http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=516701 |
| work_keys_str_mv | AT nagaeveduardleonovich colossalmagnetoresistanceandphaseseparationinmagneticsemiconductors |