Readership: Researchers and graduate students in Physics.
A. Abragam, Formerly Professeur au Collège de France, Paris, and B. Bleaney, Formerly Dr Lee's Professor of Experimental Philosophy, University of Oxford
A. Abragam was formerly Professeur au Collège de France, Paris.
B. Bleaney was formerly Dr Lee's Professor Emeritus of Experimental Philosophy, University of Oxford.
"The book before us is the most authoritative book in this field. It will be used both as a reference book by the expert and as a book of study by the graduate student beginning to work in the field." - W. Low, Science
"Written by Abragam, author of the classic work on nuclear magnetism, and Bleaney, probably the pre-eminent name in the development of the technique, this volume must excite the interest of all involved in the subject of magnetism." - G. M. Copland, Contemporary Physics
"All those working in this field will want this book; it is beautifully written and a mine of information." - E. W. Lee, BBN
I. Preliminary Survey 1: Introduction to Electron Paramagnetic Resonance II. General Survey 2: The Resonance Phenomenon 3: The Spin Hamiltonian and the Spectrum 4: Electron-nuclear Double Resonance (ENDOR) 5: The Lanthanide (4f) Group 6: The Actinide (5f) Group 7: Ions of the 3d Group in Intermediate Ligand Fields 8: Ions of the d-Groups in Strong Ligand Fields 9: Spin-Spin Interaction 10: Spin-Phonon Interaction III. Theoretical Survey 11: The Electronic Zeeman Interaction 12: Group Theory - An Outline 13: Group Theory - The Rotation Group 14: The Cubic Group and Some Other Groups 15: Time Reversal and Kramers Degeneracy 16: Elementary Theory of the Crystal Field 17: Hyperfine Structure 18: Ions in a Weak Crystal Field (f Electrons) 19: Intermediate Crystal Fields (the Iron Group) 20: The Effects of Covalent Bonding 21: The Jahn-Teller Effect in Paramagnetic Resonance
