The Physics of Polarized Targets
- Author: Tapio O. Niinikoski
- Date Published: January 2020
- availability: In stock
- format: Hardback
- isbn: 9781108475075
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Magnetic resonance is a field that has expanded to a range of disciplines and applications, both in basic research and in its applications, and polarized targets have played an important role in this growth. This volume covers the range of disciplines required for understanding polarized targets, focusing in particular on the theoretical and technical developments made in dynamic nuclear polarization (DNP), NMR polarization measurement, high-power refrigeration, and magnet technology. Beyond particle and nuclear physics experiments, dynamically polarized nuclei have been used for experiments involving structural studies of biomolecules by neutron scattering and by NMR spectroscopy. Emerging applications in MRI are also benefiting from the sensitivity and contrast enhancements made possible by DNP or other hyperpolarization techniques. Topics are introduced theoretically using language and terminology suitable for scientists and advanced students from a range of disciplines, making this an accessible resource to this interdisciplinary field.
Read more- Attempts to cover all disciplines relating to the applications of polarized targets, self-consistently and with ample cross-referencing
- Accessible to a broad professional readership within this interdisciplinary field
- Suggests open issues where there is potential for new research and further development
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×Product details
- Date Published: January 2020
- format: Hardback
- isbn: 9781108475075
- length: 530 pages
- dimensions: 253 x 180 x 28 mm
- weight: 1.14kg
- contains: 81 b/w illus.
- availability: In stock
Table of Contents
Foreword
1. Introduction to spin, magnetic resonance and polarization
2. Resonance and relaxation of interacting spin systems
3. Electron paramagnetic resonance and relaxation
4. Dynamic nuclear polarization
5. Nuclear magnetic resonance and relaxation
6. NMR polarization measurement
7. Choice and preparation of polarized target materials
8. Refrigeration
9. Microwave and magnet techniques
10. Other methods of nuclear spin polarization
11. Design and optimization of experiments using polarized targets
Appendices
Index.
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