Unifying Physics of Accelerators, Lasers and Plasma introduces the physics of accelerators, lasers and plasma in tandem with the industrial methodology of inventiveness, a technique that teaches that similar problems and solutions appear again and again in seemingly dissimilar disciplines.
Unifying Physics of Accelerators, Lasers and Plasma introduces the physics of accelerators, lasers and plasma in tandem with the industrial methodology of inventiveness, a technique that teaches that similar problems and solutions appear again and again in seemingly dissimilar disciplines.
Andrei Seryi - Jefferson Lab Associate Director for accelerators operations and R&D, Governor's distinguished CEBAF Professor. Until 2018 served as the Director of the John Adams Institute for accelerator science in the UK and a professor at Oxford University. Prior to that worked at Stanford Linear Accelerator Center. Contributed to development of linear colliders and plasma acceleration. Fellow of the American Physical Society. His professional interests include development of accelerator technology applications to discovery science, industry, healthcare and energy; organizing of scientific research; project management; inventions and innovations; developing novel training approaches and methods. Elena Seraia - presently a consultant, and until 2018 was working in the Medical Department of the University of Oxford, in the group of Radiation Oncology and Biology, contributing to research aimed at finding ways of comprehensive cancer treatment, and prior to that worked at the Medical Department at Stanford University, in the group which was the first one to develop the principle of contact printing of oligonucleotide DNA microarrays. Elena is the key contributor to the 1st edition of the Unifying Physics book, via creating of more than 260 illustrations, and via contributing to the chapter on the DNA effects of radiation and cancer therapy. Her ingenious illustrations of the inventive principles made, in a great extent, this second edition possible.
Inhaltsangabe
Chapter 1. Basics of Accelerators and the Art of Inventiveness. Chaprter 2. Transverse Dynamics. Chapter 3. Synchrotron Radiation. Chapter 4. Synergies Between Accelerators, Lasers and Plasma. Chapter 5. Conventional Acceleration. Chapter 6. Plasma Acceleration. Chapter 7. Light Sources. Chapter 8. Free Electron Lasers. Chapter 9. Proton and Ion Laser Plasma Acceleration. Chapter 10. Beam Cooling and Final Focusing. Chapter 11. Beam Stability and Energy Recovery. Chapter 12. Advanced Beam Manipulation. Chapter 13. Advanced Technologies. Chapter 14. Inventions and Innovations in Science. Chapter 15. Forty Inventive Principles. Appendix A. Bibliography.
Chapter 1. Basics of Accelerators and the Art of Inventiveness. Chaprter 2. Transverse Dynamics. Chapter 3. Synchrotron Radiation. Chapter 4. Synergies Between Accelerators, Lasers and Plasma. Chapter 5. Conventional Acceleration. Chapter 6. Plasma Acceleration. Chapter 7. Light Sources. Chapter 8. Free Electron Lasers. Chapter 9. Proton and Ion Laser Plasma Acceleration. Chapter 10. Beam Cooling and Final Focusing. Chapter 11. Beam Stability and Energy Recovery. Chapter 12. Advanced Beam Manipulation. Chapter 13. Advanced Technologies. Chapter 14. Inventions and Innovations in Science. Chapter 15. Forty Inventive Principles. Appendix A. Bibliography.
Chapter 1. Basics of Accelerators and the Art of Inventiveness. Chaprter 2. Transverse Dynamics. Chapter 3. Synchrotron Radiation. Chapter 4. Synergies Between Accelerators, Lasers and Plasma. Chapter 5. Conventional Acceleration. Chapter 6. Plasma Acceleration. Chapter 7. Light Sources. Chapter 8. Free Electron Lasers. Chapter 9. Proton and Ion Laser Plasma Acceleration. Chapter 10. Beam Cooling and Final Focusing. Chapter 11. Beam Stability and Energy Recovery. Chapter 12. Advanced Beam Manipulation. Chapter 13. Advanced Technologies. Chapter 14. Inventions and Innovations in Science. Chapter 15. Forty Inventive Principles. Appendix A. Bibliography.
Chapter 1. Basics of Accelerators and the Art of Inventiveness. Chaprter 2. Transverse Dynamics. Chapter 3. Synchrotron Radiation. Chapter 4. Synergies Between Accelerators, Lasers and Plasma. Chapter 5. Conventional Acceleration. Chapter 6. Plasma Acceleration. Chapter 7. Light Sources. Chapter 8. Free Electron Lasers. Chapter 9. Proton and Ion Laser Plasma Acceleration. Chapter 10. Beam Cooling and Final Focusing. Chapter 11. Beam Stability and Energy Recovery. Chapter 12. Advanced Beam Manipulation. Chapter 13. Advanced Technologies. Chapter 14. Inventions and Innovations in Science. Chapter 15. Forty Inventive Principles. Appendix A. Bibliography.
Rezensionen
Praise for the first edition
"...Unifying Physics of Accelerators, Lasers and Plasma is a must-have for every student and practitioner of accelerator science. It is a quick reference guide and provides solid, intuitive discussions of what are often quite erudite concepts. I enthusiastically applaud this outstanding book."
Sekazi Mtingwa in Physics Today, August 2016
Praise for the first edition
"...Unifying Physics of Accelerators, Lasers and Plasma is a must-have for every student and practitioner of accelerator science. It is a quick reference guide and provides solid, intuitive discussions of what are often quite erudite concepts. I enthusiastically applaud this outstanding book."
Sekazi Mtingwa in Physics Today, August 2016
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