Molecular Nanomagnets (häftad)
Format
Häftad (Paperback)
Språk
Engelska
Antal sidor
416
Utgivningsdatum
2011-04-14
Förlag
OUP Oxford
Medarbetare
Sessoli, Roberta / Villain, Jacques
Illustratör/Fotograf
numerous line drawings and halftones
Illustrationer
numerous line drawings and halftones
Dimensioner
234 x 158 x 19 mm
Vikt
671 g
Antal komponenter
1
ISBN
9780199602261
Molecular Nanomagnets (häftad)

Molecular Nanomagnets

Häftad Engelska, 2011-04-14
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This is the first book on molecular nanomagnetism, which is a new research area of wide interest to chemists and physicists who want to discover the beauty of the molecular world and its potentialities to give new classes of magnetic materials.
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Recensioner i media

Angewandte Chemie The book can be strongly recommended. It succeeds in bridging the gap between the many different facets of chemistry and physics. The subject is sure to gain in importance in the coming years

Lab Plus International Written by the chemist originators as well as by a theorist who has been one of the protagonists of the development of the field, this book is explicitly addressed to an audience of chemists and physicists and aims to use a language suitable for the two communities.

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Innehållsförteckning

1. Introduction; 2. Magnetic Interactions in Molecular Systems; 3. Observation of Microscopic Magnetism; 4. Single Molecular Magnets; 5. Thermally Activated Magnetic Relaxation; 6. Magnetic Tunnelling of an Isolated Spin; 7. Introduction to Path Integrals; 8. Tunnelling in a Time-Dependent Magnetic Field at Low Temperature; 9. Interaction of a Spin with the External World at Low Temperature; 10. Tunnelling between Excited States; 11. Coherence and Decoherence; 12. Disorder and Magnetic Tunnelling; 13. More Experiments on Single Molecule Magnets; 14. Other Magnetic Molecules; 15. Emerging Trends in Molecular Nanomagnetism; A. Systems of Units, Physical Contants and Basic Mathematical Tools; B. The Magnetic Field; C. How Irreversibility Comes In; D. Basic Properties of the Master Equation; E. Derivation of the Arrhenius Law; F. Phonons and How to Use Them; G. High Order Perturbation Theory; H. Proof of the Landau-Zener-Stuckelberg Formula; I. Tunnelling Between Hyperfine States; J. Specific Heat; K. master Equation for the Density Matrix