Multifrequency Electron Paramagnetic Resonance Data and Techniques
Coordonnateur : Misra Sushil K.
Sushil K. Misra
Chapter II. Rapid Scan Electron Paramagnetic Resonance
Sandra S. Eaton, Richard W. Quine, Mark Tseitlin, Deborah G. Mitchell, George A. Rinard, and Gareth R. Eaton
Introduction
Post-acquisition treatment of rapid-scan signals
Simulation of rapid-scan spectra
Scan coils
Design of scan drivers
Use of ENDOR type coils and RF amplifiers for very fast scans
Resonator design
Background signals
Bridge design
Selection of acquisition parameters
Multifrequency rapid scan
Example of applications
Extension of the rapid-scan technology to scans that are not fast relative to relaxation times
Summary
Chapter III. Computational modeling and least-squares fitting of EPR spectra
Stefan Stoll
Introduction
Software
General principles
Static cw EPR spectra
Dynamic cw EPR spectra
Pulse EPR spectra
Pulse and cw ENDOR spectra
Pulse DEER spectra
Least-squares fitting
Various topics
Outlook
Chapter IV. MULTIFREQUENCY TRANSITION-ION DATA TABULATION
Sushil K. Misra, Sean Moncrieff, and Stefan Diehl
Introduction
Listing of spin-Hamiltonian Parameters
References
Chapter V. COMPILATION OF HYPERFINE SPLITTINGS AND g-FACTORS FOR AMINOXYL (NITROXIDE) RADICALS
Lawrence J. Berliner
Introduction
Tabulations
References
With a background in physics, chemsitry, and bio-chemistry the author team combines a strong expertise in developing EPR instrumentation and applying it to condensed matter, proteins, and even for in-vivo studies.
Date de parution : 05-2014
Ouvrage de 320 p.
17.5x25.2 cm
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Mots-clés :
Handbook of Multifrequency Electron Paramagnetic Resonance: Data and Techniques; Sushil K; Misra; Rapid Scan EPR; Multifrequency Transition Ion Data Tabulation; Compilation of Hyperfine Splittings and G-Factors for Aminoxyl (Nitroxide) Radicals; Computational Modeling and Least-Squares Fitting of EPR Spectra; ENDOR; Pulse EPR