Cover; Contents; Contributors; Preface; Chapter 1. Magnetic Resonance Contributions to Other Sciences; 1. Introduction; 2. Magnetic Resonance and Nuclear Magnetic Moments; 3. Magnetic Interactions in Molecules; 4. Nuclear Electric Interactions in Molecules; 5. Atomic Hyperfine Structure, Separated Oscillatory Fields and Atomic Clocks; 6. Atomic Hyperfine Structure and QED; 7. NMR; 8. Magnetic Resonance Imaging; 9. Conclusions; References; Chapter 2. A Single Quantum System: Evolution, Prediction, Observation; 1. From ``Gedanken'' Experiments to Quantum Measurement
2. Evolution Frustrated by Observation?3. Observations on a Driven Quantum System; 4. Measurements on Single Ions; 5. An Alternative Strategy; 6. Summary; References; Chapter 3. The Quantum SI: A Possible New International System of Units; 1. Introduction; 2. International System of Units; 3. The Kilogram and the Ampere; 4. Possible Redefinitions of the Kilogram; 5. Relation Between the Avogadro Constant and the Planck Constant; 6. Other Redefinitions; 7. Consequences for Other Fundamental Constants; 8. The Quantum SI; 9. The Second; 10. Time Scale for Redefinitions; 11. Conclusion
Chapter 6. Precise Atomic Masses for Fundamental Physics Determined at SMILETRAP1. Introduction; 2. The SMILETRAP Facility; 3. Results and Discussions; 4. Conclusion and Outlook; Acknowledgements; References; Chapter 7. HITRAP: A Facility at GSI for Highly Charged Ionsq1; 1. The Present GSI Facility; 2. The HITRAP Project; 3. The HITRAP Facility; 4. Experiments at HITRAP; 5. The New GSI Facility; Acknowledgements; References; Chapter 8. Structure of Vacuum and Elementary Matter: From Superheavies via Hypermatter to Antimatter-The Vacuum Decay in Supercritical Fields; 1. Introduction
2. Cold Valleys in the Potential3. Shell Structure in the Superheavy Region; 4. Asymmetric and Superasymmetric Fission-Cluster Radioactivity; 5. Extension of the Periodic System into the Sections of Hyper- and Antimatter; 6. Clusters of Matter and Antimatter; 7. Theoretical Framework; 8. Structure of Light Nuclei Containing Antiprotons; 9. Doubly-Magic Lead with Antiproton and Anti-Alpha; 10. Systems with Total Baryon Number Zero; 11. Life Time, Formation Probability and Signatures of SBNs; 12. Cold Compression: Nuclear and Quark Matter; 13. The Vacuum in Quantum Electrodynamics