Principles of Mössbauer Spectroscopy
The emergence of Mossbauer spectroscopy as an important experi mental technique for the study of solids has resulted in a wide range of applications in chemistry, physics, metallurgy and biophysics. This book is intended to summarize the elementary principles of the technique at a level appropriate...
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| Format: | eBook |
| Language: | English |
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Dordrecht
Springer Netherlands
1976, 1976
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| Edition: | 1st ed. 1976 |
| Series: | Studies in Chemical Physics
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| Subjects: | |
| Online Access: | |
| Collection: | Springer Book Archives -2004 - Collection details see MPG.ReNa |
Table of Contents:
- 4.5 Covalent iron compounds
- References
- 5 Electronic Structure and Bonding:Paramagnetic Compounds
- 5.1 Quadrupole interactions
- 5.2 Magnetic hyperfine interactions
- 5.3 Spin cross-over
- 5.4 Pressure effects
- 5.5 Second and third row transition elements
- 5.6 Lanthanides and actinides
- References
- 6 Dynamic Effects
- 6.1 Second-order Doppler shift and recoilless fraction
- 6.2 The Gold an skii-Karyagin effect
- 6.3 Electron hopping and atomic diffusion
- 6.4 Paramagnetic relaxation
- 6.5 Superparamagnetism
- References
- 7 Oxides and Related Systems
- 7.1 Stoichiome tric spinels
- 7.2 Non-stoichiometric spinels
- 7.3 Exchange interactions in spinels
- 7.4 Rare-earth iron garnets
- 7.5 Transferred hyperfine interactions
- References
- 8 Alloys and Intermeiallic Compounds
- 8.1 Disordered alloys
- 8.2 Intermetallic compounds
- References
- 9 Analytical Applications
- 9.1 Chemical analysis
- 9.2 Silicate minerals
- 9.3 Surface chemistry
- 1 The Mossbauer Effect
- 1.1 Resonant absorption and fluorescence
- 1.2 The Mossbauer effect
- 1.3 The Mossbauer spectrum
- 1.4 The Mossbauer spectrometer
- 1.5 Mossbauer isotopes
- 1.6 Computation of data
- References
- 2 Hyperfine Interactions
- 2.1 The chemical isomer shift
- 2.2 Magnetic hyperfine interactions
- 2.3 Electric quadrupole interactions
- 2.4 Combined magnetic and quadrupole interactions
- 2.5 Relative line intensities
- References
- 3 Molecular Structure
- 3.1 Iron carbonyls and derivatives
- 3.2 Geometrical isomerism in Fe and Sn compounds
- 3.3 Linkage isomerism in cyano-complexes of Fe
- 3.4 Conformations in organometallic compounds of Fe
- 3.5 Stereochemistry in tin compounds
- 3.6 Molecular iodine compounds
- Appendix Quadrupole splitting in cis- and trans-isomers
- References
- 4 Electronic Structure and Bonding: Diamagnetic Compounds
- 4.1 Formal oxidation state
- 4.2 Iodine
- 4.3 Tellurium and antimony
- 4.4 Tin
- References
- 10 Impurity and Decay After-effect Studies
- 10.1 Impurity doping
- 10.2 Decay after-effects
- References
- 11 Biological Systems
- 11.1 Haemoproteins
- 11.2 Ferredoxins
- References
- Observed Mossbauer Resonances