2 edition of Electron spin relaxation phenomena in solids found in the catalog.
Electron spin relaxation phenomena in solids
K. J. Standley
|Statement||[by] K.J. Standley [and] R.A. Vaughan.|
|Series||Monographs on electron spin resonance|
|Contributions||Vaughan, R. A.|
|The Physical Object|
|Pagination||x, 245 p.|
|Number of Pages||245|
Coherent precession of the spins of conduction electrons in a semiconductor, a phenomenon known as conduction electron spin coherence, persists over time and length scales far longer than many other nonequilibrium phenomena in solids; room-temperature spin coherence times for conduction electrons can be more than 3 orders of magnitude longer than . The longitudinal relaxation is accompanied by a change of the energy of the spin system. The thermal motion is the source and sink of energy exchange in the relaxation processes. In solids, thermal motion is usually described by. phonons, which are quanta (photons) with energies in the range corresponding to lattice by: 2.
Spin–orbit coupling (SOC) is fundamental to a wide range of phenomena in condensed matter, spanning from a renormalisation of Cited by: 4. Electron Spin Resonance: Elementary Theory and Practical Applications - Ebook written by John Wertz. Read this book using Google Play Books app on your PC, android, iOS devices. Download for offline reading, highlight, bookmark or take notes while you read Electron Spin Resonance: Elementary Theory and Practical Applications.
An introduction and tutorial on electron paramagnetic spectroscopy Bringing a classic text up to date after three decades of popularity, Electron Paramagnetic Resonance: Elementary Theory and Practical Applications, Second Edition provides a basic understanding of the underlying theory, fundamentals, and applications of electron paramagnetic spectroscopy 5/5(1). An introduction and tutorial on electron paramagnetic spectroscopy. Bringing a classic text up to date after three decades of popularity, Electron Paramagnetic Resonance: Elementary Theory and Practical Applications, Second Edition provides a basic understanding of the underlying theory, fundamentals, and applications of electron paramagnetic spectroscopy (EPR).
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Electron Spin Relaxation Phenomena in Solids Paperback – Novem by K. Standley (Author)Cited by: Electron Spin Relaxation Phenomena in Solids.
Authors (view affiliations) K. Standley; R. Vaughan; Book. 74 Citations; k Downloads; Part of the Monographs on Electron Spin Resonance book series (MESR) Log in to check access. Buy eBook. USD Instant download; Readable on all devices; Own it forever; Local sales tax included if.
Additional Physical Format: Online version: Standley, K.J. Electron spin relaxation phenomena in solids. New York, Plenum Press, (OCoLC) Additional Physical Format: Online version: Standley, K.J.
Electron spin relaxation phenomena in solids. London, Hilger, (OCoLC) Document Type. The Paperback of the Electron Spin Relaxation Phenomena in Solids by K. Standley at Barnes & Noble. FREE Shipping on $35 or more.
Due to COVID, orders may be delayed. Electron Spin Resonance Spin System Relaxation Phenomenon Direct Process Bloch Equation These keywords were added by machine and not by the authors.
This process is experimental and the keywords may be updated as the learning algorithm by: 2. The spin relaxation time T 1 of the electron spin in an ensemble of Si:GaAs donor system was measured by first initializing the electron spin to its ground state by optical pumping, waiting for a variable delay time τ and sending a resonant optical probe pulse to detect the excited-state population as shown in Figure 32(a) (Fu et al., ).
In physics, the spin–spin relaxation is the mechanism by which M xy, the transverse component of the magnetization vector, exponentially decays towards its equilibrium value in nuclear magnetic resonance (NMR) and magnetic resonance imaging (MRI).
It is characterized by the spin–spin relaxation time, known as T 2, a time constant characterizing the signal decay. Relaxation in Magnetic Resonance contains a series of lecture notes for a special topics course at the University of South Carolina in This book contains 21 chapters that summarize the main theoretical formulations and experimental results of magnetic resonance relaxation phenomena in several physical systems.
The subsequent chapters discuss the homogeneous and inhomogeneous resonant lines in solids and liquids and the significance of the Kubo-Tomita and Redfield theories in magnetic resonance. This book then considers the background research on electron spin resonance and relaxation in ionic solids.
The book is concerned with the application of the nonequilibrium density matrix method to the study of kinetic and relaxation processes in solids. The physical causes of irreversibility in a quantum system are discussed, and a detailed derivation is presented for kinetic equations describing processes that involve electrons, phonons, excitons, and magnons, both in the.
Electrons in crystalline solids. Sindhunil Barman Roy and that will be reflected in the narratives in the sections below and the rest of the book.
Periodic structure of solids and Bragg scattering which depends on the spin state of the electron and the change of sign of the electron wavefunction when two electrons are exchanged.
In the physical sciences, relaxation usually means the return of a perturbed system into equilibrium. Each relaxation process can be categorized by a relaxation time τ. The simplest theoretical description of relaxation as function of time t is an exponential law exp (- t /τ) (exponential decay).
1 In simple linear systems. Monographs on Electron Spin Resonance Discontinued Series Although this series no longer publishes new content, the published titles listed below may be still available on-line (e.
via the Springer Book Archives) and in print. Oxide magnetic materials, by Standley, K. and a great selection of related books, art and collectibles available now at The conductivity of a material is directly proportional to this relaxation time; highly conductive materials have relatively long relaxation times.
The closely related concept of a lifetime is the mean time that an electron will reside in a given quantum state before changing state as a result of collision with another particle or intrinsic Cited by: 1.
Electron spin–lattice relaxation and phase relaxation were measured by the electron spin echo (ESE) method in the temperature range – K for radicals appearing during the polycondensation.
The subsequent chapters discuss the homogeneous and inhomogeneous resonant lines in solids and liquids and the significance of the Kubo-Tomita and Redfield theories in magnetic resonance.
This book then considers the background research on electron spin resonance and relaxation in ionic Edition: 1. We present and model the NMR frequency (,and MHz) and temperature ( K) dependence of the solid state ¹ H spin-lattice relaxation process in polycrystalline 1,4. 10 RELAXATION TIMES, LINEWIDTHS AND SPIN KINETIC PHENOMENA.
Introduction. Spin Relaxation: General Aspects. Spin Relaxation: Bloch Model. Linewidths. Dynamic Lineshape Effects. Longitudinal Detection. Saturation-Transfer EPR. Time Dependence of the EPR Signal Amplitude. Dynamic Nuclear Polarization.
Electron spin decoherence in solids can be caused by any of the following mechanisms: (1) direct relaxation due to spontaneous emission of photons; (2) spin–lattice relaxation via phonon.The book addresses a number of the most prominent effects taking place in semiconductor nanosystems including hyperfine interaction, nuclear magnetic resonance, dynamical nuclear polarization, spin-Faraday and -Kerr effects, processes of electron spin decoherence and relaxation, effects of electron spin precession mode-locking and frequency.Specialist Periodical Reports provide systematic and detailed review coverage of progress in the major areas of chemical research.
Written by experts in their specialist fields the series creates a unique service for the active research chemist, supplying regular critical in-depth accounts of progress in particular areas of chemistry. For over 80 years the Royal Society of Chemistry .