Principles of Magnetic Resonance [electronic resource] /
It is a source of great pleasure to help launch the new Springer Series in Solid-State Sciences. Some years aga I wrote my book, Principles of Magnetic Resonance. I have been eager to publish a new book concerned with spin temperature, double resonance, and spin-flip line narrowing, topics basic to important trends in present-day magnetic resonance which were not treated in my earlier book. Invitations to lecture in Osaka, Japan, in Leuven, Belgium, and Lausanne, Switzerland, had provided occasion to prepare first drafts of the new topics and to get student feedback. My plans were changed, however, when I learned that Principles of M agnetic Resonance was no longer available. Dr. Lotsch, Physics Editor of Springer-Verlag, and I decided it made sense to combine the new book with a modified old one, thereby continuing to make available a complete text in basic magnetic resonance written with a philosophy of presenting a thorough treatment of a small number of concepts which are key to large areas of magnetic res on an ce. In addition to adding three new chapters, I have added new material to the original chapters, have added two new appendices-one on the use of Bloch equations to describe rate processes, the other on the effect of diffusion on spin echoes-and have augmented the collection of homework problems.
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Format: | Texto biblioteca |
Language: | eng |
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Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer,
1978
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Subjects: | Physics., Atoms., Condensed matter., Magnetism., Magnetic materials., Condensed Matter Physics., Magnetism, Magnetic Materials., Atomic, Molecular, Optical and Plasma Physics., |
Online Access: | http://dx.doi.org/10.1007/978-3-662-12784-1 |
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Physics. Atoms. Condensed matter. Magnetism. Magnetic materials. Physics. Condensed Matter Physics. Magnetism, Magnetic Materials. Atomic, Molecular, Optical and Plasma Physics. Physics. Atoms. Condensed matter. Magnetism. Magnetic materials. Physics. Condensed Matter Physics. Magnetism, Magnetic Materials. Atomic, Molecular, Optical and Plasma Physics. |
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Physics. Atoms. Condensed matter. Magnetism. Magnetic materials. Physics. Condensed Matter Physics. Magnetism, Magnetic Materials. Atomic, Molecular, Optical and Plasma Physics. Physics. Atoms. Condensed matter. Magnetism. Magnetic materials. Physics. Condensed Matter Physics. Magnetism, Magnetic Materials. Atomic, Molecular, Optical and Plasma Physics. Slichter, Charles P. author. SpringerLink (Online service) Principles of Magnetic Resonance [electronic resource] / |
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It is a source of great pleasure to help launch the new Springer Series in Solid-State Sciences. Some years aga I wrote my book, Principles of Magnetic Resonance. I have been eager to publish a new book concerned with spin temperature, double resonance, and spin-flip line narrowing, topics basic to important trends in present-day magnetic resonance which were not treated in my earlier book. Invitations to lecture in Osaka, Japan, in Leuven, Belgium, and Lausanne, Switzerland, had provided occasion to prepare first drafts of the new topics and to get student feedback. My plans were changed, however, when I learned that Principles of M agnetic Resonance was no longer available. Dr. Lotsch, Physics Editor of Springer-Verlag, and I decided it made sense to combine the new book with a modified old one, thereby continuing to make available a complete text in basic magnetic resonance written with a philosophy of presenting a thorough treatment of a small number of concepts which are key to large areas of magnetic res on an ce. In addition to adding three new chapters, I have added new material to the original chapters, have added two new appendices-one on the use of Bloch equations to describe rate processes, the other on the effect of diffusion on spin echoes-and have augmented the collection of homework problems. |
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Physics. Atoms. Condensed matter. Magnetism. Magnetic materials. Physics. Condensed Matter Physics. Magnetism, Magnetic Materials. Atomic, Molecular, Optical and Plasma Physics. |
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Slichter, Charles P. author. SpringerLink (Online service) |
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Slichter, Charles P. author. SpringerLink (Online service) |
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Slichter, Charles P. author. |
title |
Principles of Magnetic Resonance [electronic resource] / |
title_short |
Principles of Magnetic Resonance [electronic resource] / |
title_full |
Principles of Magnetic Resonance [electronic resource] / |
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Principles of Magnetic Resonance [electronic resource] / |
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Principles of Magnetic Resonance [electronic resource] / |
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principles of magnetic resonance [electronic resource] / |
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Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, |
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1978 |
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http://dx.doi.org/10.1007/978-3-662-12784-1 |
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AT slichtercharlespauthor principlesofmagneticresonanceelectronicresource AT springerlinkonlineservice principlesofmagneticresonanceelectronicresource |
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KOHA-OAI-TEST:2109712018-07-30T23:43:18ZPrinciples of Magnetic Resonance [electronic resource] / Slichter, Charles P. author. SpringerLink (Online service) textBerlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer,1978.engIt is a source of great pleasure to help launch the new Springer Series in Solid-State Sciences. Some years aga I wrote my book, Principles of Magnetic Resonance. I have been eager to publish a new book concerned with spin temperature, double resonance, and spin-flip line narrowing, topics basic to important trends in present-day magnetic resonance which were not treated in my earlier book. Invitations to lecture in Osaka, Japan, in Leuven, Belgium, and Lausanne, Switzerland, had provided occasion to prepare first drafts of the new topics and to get student feedback. My plans were changed, however, when I learned that Principles of M agnetic Resonance was no longer available. Dr. Lotsch, Physics Editor of Springer-Verlag, and I decided it made sense to combine the new book with a modified old one, thereby continuing to make available a complete text in basic magnetic resonance written with a philosophy of presenting a thorough treatment of a small number of concepts which are key to large areas of magnetic res on an ce. In addition to adding three new chapters, I have added new material to the original chapters, have added two new appendices-one on the use of Bloch equations to describe rate processes, the other on the effect of diffusion on spin echoes-and have augmented the collection of homework problems.1. Elements of Resonance -- 2. Basic Theory -- 3. Magnetic Dipolar Broadening of Rigid Lattices -- 4. Magnetic Interactions of Nuclei with Electrons -- 5. Spin-Lattice Relaxation and Motional Narrowing of Resonance Lines -- 6. Spin Temperature in Magnetism and in Magnetic Resonance -- 7. Double Resonance -- 8. Advanced Concepts in Pulsed Magnetic Resonance -- 9. Electric Quadrupole Effects -- 10. Electron Spin Resonance -- 11. Summary -- Problems -- 2 -- 3 -- 4 -- 5 -- 6 -- 7 -- 8 -- 9 -- 10 -- Appendixes -- Appendix A: A Theorem About Exponential Operators -- Appendix B: Some Further Expressions for the Susceptibility -- Appendix C: Derivation of the Correlation Function for a Field that -- Appendix D: A Theorem from Perturbation Theory -- Appendix E: The High Temperature Approximation -- Appendix F: The Effects of Changing the Precession Frequency—Using NMR to Study Rate Phenomena -- Appendix G: Diffusion in an Inhomogeneous Magnetic Field -- Selected Bibliography -- References -- Author Index.It is a source of great pleasure to help launch the new Springer Series in Solid-State Sciences. Some years aga I wrote my book, Principles of Magnetic Resonance. I have been eager to publish a new book concerned with spin temperature, double resonance, and spin-flip line narrowing, topics basic to important trends in present-day magnetic resonance which were not treated in my earlier book. Invitations to lecture in Osaka, Japan, in Leuven, Belgium, and Lausanne, Switzerland, had provided occasion to prepare first drafts of the new topics and to get student feedback. My plans were changed, however, when I learned that Principles of M agnetic Resonance was no longer available. Dr. Lotsch, Physics Editor of Springer-Verlag, and I decided it made sense to combine the new book with a modified old one, thereby continuing to make available a complete text in basic magnetic resonance written with a philosophy of presenting a thorough treatment of a small number of concepts which are key to large areas of magnetic res on an ce. In addition to adding three new chapters, I have added new material to the original chapters, have added two new appendices-one on the use of Bloch equations to describe rate processes, the other on the effect of diffusion on spin echoes-and have augmented the collection of homework problems.Physics.Atoms.Condensed matter.Magnetism.Magnetic materials.Physics.Condensed Matter Physics.Magnetism, Magnetic Materials.Atomic, Molecular, Optical and Plasma Physics.Springer eBookshttp://dx.doi.org/10.1007/978-3-662-12784-1URN:ISBN:9783662127841 |