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Nb3Sn Accelerator Magnets [electronic resource] : Designs, Technologies and Performance / edited by Daniel Schoerling, Alexander V. Zlobin.

Contributor(s): Schoerling, Daniel [editor.] | Zlobin, Alexander V [editor.] | SpringerLink (Online service)
Material type: TextTextSeries: Particle Acceleration and Detection: Publisher: Cham : Springer International Publishing : Imprint: Springer, 2019Edition: 1st ed. 2019Description: XVII, 452 p. 292 illus., 171 illus. in color. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783030161187Subject(s): Particle acceleration | Physical measurements | Measurement    | Machinery | Atoms | Physics | Particle Acceleration and Detection, Beam Physics | Measurement Science and Instrumentation | Machinery and Machine Elements | Atomic, Molecular, Optical and Plasma PhysicsAdditional physical formats: Printed edition:: No title; Printed edition:: No title; Printed edition:: No titleDDC classification: 539.73 LOC classification: QC770-798Online resources: Click here to access online
Contents:
Part 1. Introduction -- Chapter 1. SC magnets in particle accelerators (D. Schoerling) -- Chapter 2. Nb3Sn strand and cable progress (E. Barzi) -- Chapter 3. Historical overview (1960s-1980s) (L. Rossi) -- Part 2. Cos-theta dipoles -- Chapter 4. CERN-ELIN (R. Perin) -- Chapter 5. CERN-MSUT (A. den Ouden) -- Chapter 6. LBNL D20 (S. Caspi) -- Chapter 7. FNAL HFDA (A. Zlobin) -- Chapter 8. FNAL/CERN MBH (F. Savary) -- Part 3. Block-type dipoles -- Chapter 9. TAMU (P. McIntyre) -- Chapter 10. LBNL HD (GL. Sabbi) -- Part 4. Common coil dipoles -- Chapter 11. BNL (R. Gupta) -- Chapter 12. LBNL (S. Gourlay) -- Chapter 13. FNAL HFDC (A. Zlobin) -- Part 5. Outlook -- Chapter 14. Nb3Sn accelerator needs for FCC (D. Tommasini) -- Chapter 15. Summary/Conclusions (D. Schoerling).
In: Springer Nature Open Access eBookSummary: This open access book is written by world-recognized experts in the fields of applied superconductivity and superconducting accelerator magnet technologies. It provides a contemporary review and assessment of the experience in research and development of high-field accelerator dipole magnets based on Nb3Sn superconductor over the past five decades. The reader attains clear insight into the development and the main properties of Nb3Sn composite superconducting wires and Rutherford cables, and details of accelerator dipole designs, technologies and performance. Special attention is given to innovative features of the developed Nb3Sn magnets. The book concludes with a discussion of accelerator magnet needs for future circular colliders.
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Part 1. Introduction -- Chapter 1. SC magnets in particle accelerators (D. Schoerling) -- Chapter 2. Nb3Sn strand and cable progress (E. Barzi) -- Chapter 3. Historical overview (1960s-1980s) (L. Rossi) -- Part 2. Cos-theta dipoles -- Chapter 4. CERN-ELIN (R. Perin) -- Chapter 5. CERN-MSUT (A. den Ouden) -- Chapter 6. LBNL D20 (S. Caspi) -- Chapter 7. FNAL HFDA (A. Zlobin) -- Chapter 8. FNAL/CERN MBH (F. Savary) -- Part 3. Block-type dipoles -- Chapter 9. TAMU (P. McIntyre) -- Chapter 10. LBNL HD (GL. Sabbi) -- Part 4. Common coil dipoles -- Chapter 11. BNL (R. Gupta) -- Chapter 12. LBNL (S. Gourlay) -- Chapter 13. FNAL HFDC (A. Zlobin) -- Part 5. Outlook -- Chapter 14. Nb3Sn accelerator needs for FCC (D. Tommasini) -- Chapter 15. Summary/Conclusions (D. Schoerling).

Open Access

This open access book is written by world-recognized experts in the fields of applied superconductivity and superconducting accelerator magnet technologies. It provides a contemporary review and assessment of the experience in research and development of high-field accelerator dipole magnets based on Nb3Sn superconductor over the past five decades. The reader attains clear insight into the development and the main properties of Nb3Sn composite superconducting wires and Rutherford cables, and details of accelerator dipole designs, technologies and performance. Special attention is given to innovative features of the developed Nb3Sn magnets. The book concludes with a discussion of accelerator magnet needs for future circular colliders.

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