Low-dimensional carriers under in-plane magnetic field : novel phenomena / Constantinos Simserides, Anna Zora, and Georgios P. Triberis.
Material type:
TextSeries: Condensed matter research and technology seriesPublisher: New York : Nova Science Publishers, Inc., [2010]Description: 1 online resourceContent type: - text
- computer
- online resource
- 9781614701965
- 1614701962
- 530.14/33 22
- QC611.8.L68
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Includes bibliographical references (pages 147-159) and index.
Description based on print version record and CIP data provided by publisher.
LOW-DIMENSIONAL CARRIERS UNDERIN-PLANE MAGNETIC FIELD:NOVEL PHENOMENA; CONDENSED MATTER RESEARCH ANDTECHNOLOGY; Contents; Introduction; Quantum Mechanics andThermodynamics of QuasiTwo-Dimensional Carriersunder In-Plane Magnetic Field; 1.1. Basics; 1.2. Electron Kinetics; 1.3. The Density of States; 1.4. Thermodynamic Properties and Carrier Concentration; 1.5. The Case of the Single Quantum Wellor Double Heterojunction; Magnetoresistance Oscillations; 2.1. Single Heterojunction; 2.2. Double Quantum Well; 2.3. Wide Single Quantum Well; Plasmons; 3.1. Plasmons in Single Quantum Wells.
3.1.1. Subband Structure3.1.2. Collective Excitations; 3.1.3. Plasmon Dispersions; 3.2. Plasmons in Double Quantum Wells; 3.2.1. Plasmons in Double QuantumWells in the Absence of a Magnetic Field; 3.2.2. Plasmons in Double Quantum Wells under In-plane Magnetic Field; Photoluminescence; 4.1. Photoluminescence of Double Quantum Wellsunder In-plane Magnetic Field; 4.1.1. Theoretical Studies; Symmetric Double QuantumWells; Asymmetric Double Quantum Wells; 4.1.2. Experimental Studies; 4.1.3. Indirect Excitons in Double QuantumWells under High In-plane MagneticFields.
Diluted Magnetic SemiconductorQuantum Wells: Thermodynamicsand Spin-Subband Structure5.1. Basics; 5.2. Spin Splitting of Two Subsystems:Itinerant Carriers and Magnetic Ions; 5.3. Low-Temperature Thermodynamics and Spin-SubbandStructure of Narrow to Wide Diluted Magnetic SemiconductorQuantum Wells; Diluted Magnetic SemiconductorQuantum Wells: Influence ofTemperature, Magnetic Field, Carrier Concentration and ExchangeInteraction; 6.1. Multi-Spin-Subbband Populations, Spin-Polarization, andRelative Influence of the Zeeman and the Exchange Term; 6.2. Wide Quantum Wells.
6.2.1. Multi-Spin-Subband Structure, Spin-Subband Populations, and Spin-Polarization Varying the Sheet Carrier Concentration and the ExchangeInteraction6.2.2. Temperature Dependence; Orbital Thermodynamic Properties; 7.1. Low Temperatures; 7.2. Augmenting Temperature; A Quasi Zero-Dimensional Case:Quantum Dots under Magnetic Fieldof Variable Orientation; 8.1. The Theoretical Framework; 8.1.1. Single-Particle States; 8.1.2. Coulomb Matrix Elements; 8.1.3. Excitonic Problem; 8.1.4. Near-Field Absorption Spectra -- Spatial Resolution; 8.2. Application to Single and Double Quantum Dots.
8.2.1. Single-Particle States of Single Quantum Dots: Spatial Confinementvs. Magnetic Field Orientation and Magnitude8.2.2. Single Quantum Dot in Ideal Configuration: The Influence of theCoulomb Interaction; 8.2.3. Single Quantum Dots Subjected to Higher Magnetic Fields; 8.2.4. Double Quantum Dot with a Soft Barrier; 8.2.5. Ground State Exciton Binding; References; Index.
English.
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