Electron paramagnetic Resonance Spectroscopy Fundamentals
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Central Library, Sikkim University General Book Section | 543.67 BER/E (Browse shelf(Opens below)) | Available | 050575 |
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543.54 SIN/F Fundamentals of Molecular Spectroscopy/ | 543.57 NAK/I Infrared and Raman spectra of inorganic and coordination compounds/ | 543.66 CLA/H High-Resolution NMR Techniques in Organic Chemistry | 543.67 BER/E Electron paramagnetic Resonance Spectroscopy Fundamentals | 543.85 MCN/B Basic Gas Chromatography | 543.85 SPA/G Gas Chromatography and Mass Spectrometry: A Practical Guide | 544.6 DYE/A Applications of Absorption Spectroscopy of Organic Compounds |
The electron paramagnetic resonance phenomenon --
Chapter 2 --
Hyperfine structure of a spectrum in the isotropic regime --
Chapter 3 --
Introduction to the formalism of the space of spin states. The Hamiltonian operator --
Chapter 4 --
How anisotropy of the g and A matrices affects spectrum shape for radicals and transition ion complexes --
Chapter 5 --
Spectrum intensity, saturation, spin-lattice relaxation --
Chapter 6 --
The zero-field splitting term. EPR spectrum for paramagnetic centres of spin greater than 1/2 --
Chapter 7 --
Effects of dipolar and exchange interactions on the EPR spectrum. Biradicals and polynuclear complexes --
Chapter 8 --
EPR spectrum for complexes of rare earth and actinide ions --
Chapter 9 --
How instrumental parameters affect the shape and intensity of the spectrum. Introduction to simulation methods --
Appendix 1 --
Expression of the magnetic moment of a free atom or ion --
Appendix 2 --
Expression of g and A matrices given by ligand field theory for a transition ion complex --
Appendix 3 --
Dipolar interactions between a nuclear magnetic moment and electron spin magnetic moments --
Appendix 4 --
Some properties of angular momentum operators. Spin coupling coefficients and equivalent operators. Application to Landé's formula and to dipolar hyperfine interactions. --
Appendix 5 --
The notion of spin density --
Appendix 6 --
Example of calculation of the spin-lattice relaxation time T_1: the direct process? --
Appendix 7 --
Matrix elements of operators defined from components of an angular momentum
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