Magnetic resonance of semiconductors and their nanostructures : basic and advanced applications /: basic and advanced applications. (2017)

Record Type:: Book
Title:: Magnetic resonance of semiconductors and their nanostructures : basic and advanced applications /: basic and advanced applications. (2017)
Main Title:: Magnetic resonance of semiconductors and their nanostructures : basic and advanced applications
Further Information:: Note: Pavel G. Baranov [and 3 others].
Authors:: Baranov, Pavel G
Bardeleben, H. J. von
Jelezko, Fedor
Wrachtrup, Jörg
Contents:: Preface; Contents; 1 Basic Concepts of Electron Paramagnetic Resonance; 1.1 Magnetic Dipole; 1.1.1 Magnetic Dipole Moment; 1.1.2 Magnetic Field Produced by a Magnetic Dipole Moment; 1.1.3 Magnetogyric Ratio; 1.1.4 Electronic g-Factor of the Orbital and Spin Magnetic Moments; 1.2 Magnetic Moment of the Electron Shell in a Free Atom or Ion; 1.2.1 Electronic g-Factor of the Orbital and Spin Magnetic Moments; 1.2.2 Spin-Orbit Interaction; 1.2.3 Landé Interval Rule and Landé g-Factor; 1.3 Magnetic Dipole in a Magnetic Field; 1.3.1 Electron Zeeman Interaction. 1.3.2 Interaction Between the Magnetic Dipoles; 1.4 Populations of Energy Levels for Magnetic Moments in a Magnetic Field in Thermal Equilibrium; 1.4.1 Magnetization of the Paramagnetic Materials, Magnetic Susceptibility; 1.4.2 Curie's Law; 1.5 Magnetic Resonance Conditions; 1.5.1 Probability of Transitions Between Levels for EPR (NMR); 1.5.2 Step-up and Step-down Spin Operators; 1.5.3 Selection Rules; 1.5.4 Changing the Populations of Spin Levels by Resonant Microwave Field and Spin Relaxation; Absorption (Emission) of Electro-magnetic Energy in EPR (NMR) Experiments; 1.6 Bloch Equations. 1.6.1 Classical Behavior of the Magnetic Moment in a Magnetic Field; 1.6.2 Bloch Equations. Two Spin Relaxation Times Introduced for Longitudinal (T1) and Transverse (T2) Spin Relaxation; 1.7 Hydrogen Atom in a Magnetic Field; 1.7.1 Hyperfine Interaction in the Ground State of a Hydrogen Atom; 1.7.2 Hamiltonian and Energy Levels for the … (more)
Publisher Details:: Wien, Austria : Springer
Publication Date:: 2017
Extent:: 1 online resource
Subjects:: 621.3815/2
Physics
Semiconductors
Magnetic resonance
Nanostructures
Spectroscopy
Surfaces (Physics)
Magnetism
Nanotechnology
TECHNOLOGY & ENGINEERING -- Mechanical
Magnetic resonance
Nanostructures
Semiconductors
Science -- Spectroscopy & Spectrum Analysis
Technology & Engineering -- Material Science
Science -- Magnetism
Technology & Engineering -- Nanotechnology & MEMS
Science -- Applied Sciences
Spectrum analysis, spectrochemistry, mass spectrometry
Testing of materials
Electricity, electromagnetism & magnetism
Nanotechnology
Applied physics
Technology & Engineering -- Electronics -- Semiconductors
Semi-conductors & super-conductors
Physics
Semiconductors
Spectroscopy/Spectrometry
Characterization and Evaluation of Materials
Magnetism, Magnetic Materials
Nanotechnology
Applied and Technical Physics
Electronic books
Languages:: English
ISBNs:: 9783709111574
3709111579
3709111560
9783709111567
Related ISBNs:: 9783709111567
Notes:: Note: Includes bibliographical references at the end of each chapters and index.
Note: Vendor-supplied metadata.
Access Rights:: Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
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