Multifrequency Electron Paramagnetic Resonance: Theory and Applications

Year: 2011
Tongue: English
Leaves: 1039
Category: Library

No coin nor oath required. For personal study only.

✦ Synopsis

Filling the gap for a systematic, authoritative, and up-to-date review of this cutting-edge technique, this book covers both low and high frequency EPR, emphasizing the importance of adopting the multifrequency approach to study paramagnetic systems in full detail by using the EPR method. In so doing, it discusses not only the underlying theory and applications, but also all recent advances -- with a final section devoted to future perspectives.Content:
Chapter 1 Introduction (pages 1–22): Prof. Dr. Sushil K. Misra
Chapter 2 Multifrequency Aspects of EPR (pages 23–55): Prof. Dr. Sushil K. Misra
Chapter 3 Basic Theory of Electron Paramagnetic Resonance (pages 57–113): Prof. Dr. Sushil K. Misra
Chapter 4 Spectrometers (pages 115–228): Prof. Dr. Sushil K. Misra, Harvey A. Buckmaster, Edward Reijerse, Sankaran Subramanian and Murali C. Krishna
Chapter 5 Multifrequency EPR: Experimental Considerations (pages 229–294): James S. Hyde, Robert A. Strangeway, Theodore G. Camenisch, Jason W. Sidabras, Richard R. Mett, George A. Rinard, Richard W. Quine, Sandra S. Eaton and Gareth R. Eaton
Chapter 6 First Principles Approach to Spin?Hamiltonian Parameters (pages 295–326): Frank Neese
Chapter 7 Spin Hamiltonians and Site Symmetries for Transition Ions (pages 327–384): Prof. Dr. Sushil K. Misra
Chapter 8 Evaluation of Spin?Hamiltonian Parameters from Multifrequency EPR Data (pages 385–416): Prof. Dr. Sushil K. Misra
Chapter 9 Simulation of EPR Spectra (pages 417–454): Prof. Dr. Sushil K. Misra
Chapter 10 Relaxation of Paramagnetic Spins (pages 455–495): Prof. Dr. Sushil K. Misra
Chapter 11 Molecular Motions (pages 497–544): Prof. Dr. Sushil K. Misra and Jack H. Freed
Chapter 12 Distance Measurements: Continuous?Wave (CW)? and Pulsed Dipolar EPR (pages 545–588): Prof. Dr. Sushil K. Misra and Jack H. Freed
Chapter 13 Determination of Large Zero?Field Splitting (pages 589–597): Prof. Dr. Sushil K. Misra
Chapter 14 Determination of Non?Coincident Anisotropic g?2, A2, D?, and P? Tensors: Low?Symmetry Considerations (pages 599–618): Prof. Dr. Sushil K. Misra
Chapter 15 Biological Systems (pages 619–645): Boris Dzikovski
Chapter 16 Copper Coordination Environments (pages 647–718): William E. Antholine, Brian Bennett and Graeme R. Hanson
Chapter 17 Multifrequency Electron Spin?Relaxation Times (pages 719–753): Gareth R. Eaton and Sandra S. Eaton
Chapter 18 EPR Imaging: Theory and Instrumentation (pages 755–793): Rizwan Ahmad and Periannan Kuppusamy
Chapter 19 Multifrequency EPR Microscopy: Experimental and Theoretical Aspects (pages 795–823): Aharon Blank
Chapter 20 EPR Studies of Nanomaterials (pages 825–843): Alex Smirnov
Chapter 21 Single?Molecule Magnets and Magnetic Quantum Tunneling (pages 845–874): Prof. Dr. Sushil K. Misra
Chapter 22 Multifrequency EPR on Photosynthetic Systems (pages 875–911): Prof. Dr. Sushil K. Misra, Klaus Mobius and Anton Savitsky
Chapter 23 Measurement of Superconducting Gaps (pages 913–919): Prof. Dr. Sushil K. Misra
Chapter 24 Dynamic Nuclear Polarization (DNP) at High Magnetic Fields (pages 921–946): Thomas Prisner and Mark J. Prandolini
Chapter 25 Chemically Induced Electron and Nuclear Polarization (pages 947–992): Lawrence J. Berliner and Elena Bagryanskaya
Chapter 26 Future Perspectives (pages 993–1004): Prof. Dr. Sushil K. Misra

✦ Subjects

Физика;Практикумы, экспериментальная физика и физические методы исследования;

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