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Last modified: 2010-11-26
Detailed Design Report on the MAX IV Facility
This document is under progress and updates are posted continously.
MAX IV home
Initial MAX IV beamline program
Detailed Design Report
of the accelerator in the MAX IV Facility (2010)
Download the DDR (by chapter)
Background material for evaluation of revised accelerator concept (2009)
Revised design MAX IV
Original Conceptual Design Report including the scientific case (2006)
Download the CDR (PDF 31 MB)
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Professor
Mikael Eriksson
Chapter 1
General Description of the MAX IV Facility
1.1. Introduction
1.2. Performance/Cost Considerations
1.3. Accelerator Layout
Chapter 2
MAX IV 3 GeV Storage Ring
2.1. Introduction
2.2. Linear Lattice
2.3. Nonlinear Optics
2.4. Lattice Errors and Correction
2.5. MAX IV Magnets
2.6. The Radio Frequency System
2.7. Injection
2.8. Vacuum System
2.9. Diagnostics (RF and vacuum not included)
2.10. Beam Lifetime
2.11. Collective Effects
Chapter 3
MAX IV 1.5 GeV Storage Ring
3.1. Introduction
3.2. Linear Lattice
3.3. Nonlinear Optics
3.4. Lattice Errors and Correction
3.5. MAX IV 1.5 GeV Storage Ring Magnets
3.6. The Radio Frequency System
3.7. Injection
3.8. Vacuum System
3.9. Diagnostics (RF and vacuum not included)
3.10. Beam Lifetime
Chapter 4
MAX IV Injector
4.1. General Description and Design Philosophy
4.2. Layout, Design Parameters and Optics
4.3. Beam Dynamics and Simulations
4.4. Electron Gun
4.5. Laser System
4.6. Acceleration
4.7. Magnets
4.8. Diagnostics
Chapter 5
Insertion Devices
5.1. Introduction
5.2. Proposed Beamlines at the MAX IV 3 GeV Storage Ring
5.3. Insertion Devices at the MAX IV 3 GeV Ring
5.4. Influence from the Insertion Devices on the RF-system the Emittance and Energy Spread of the Stored Electron Beam
5.5. The influence on the Brilliance and Angular Spectral Flux from the Number of IDs Installed
5.6. Comparison of Specific Undulators at Different Synchrotron Radiation Storage Rings
5.7. Acknowledgement
5.8. Appendix A: Synchrotron Radiation
5.9. Appendix B: Modes of Operation for Elliptically Polaraising Undulators
5.10. Appendix C: Influence from the Insertion Devices on the Magnetic Optics of the Storage Ring
5.11. Appendix D: Influence from the Insertion Devices on the Emittance and Energy Spread of the Stored Beam
5.12. Appendix E: Beam Loading of the Radio Frequency System from Insertion Devices
Bibliography
Chapter 6
Stability and Tolerances
6.0. Stability and Tolerances (Vibrations, Settlements and Alignment)
6.1. Overall Stability Criteria
6.2. Vibration Conventions
6.3. Vibration Tolerances
6.4. Vibration Measurements
6.5. Vibration Management
6.6. Alignment, Positional Tolerances
6.7. Conclusions
6.8. References
Chapter 7
MAX IV Shielding
7.1. General
7.2. The Linac
7.3. The MAX 3 GeV Ring
7.4. The Short Pulse Facility
7.5. Environmental
Bibliography
Appendix A: Source Models
Appendix B: Material Attenuation Lengths
Appendix C: Electron Losses
Appendix D: The Linac
Appendix E: The The Short Pulse Facility
Chapter 8
Commissioning
8.1. Sub-System Commissioning Policy
8.2. Time Plan
8.3. Organization
8.4. 3.0 GeV Storage Ring Commissioning
8.5. 1.5 GeV Storage Ring Commissioning
8.6. Injector Commissioning
Chapter 9
Control System
9.1. Introduction
9.2. Design
9.3. Hardware
9.4. Connectivity
9.5. Software
Chapter 10
Short Pulse Facility
10.1. Overview and Layout
Chapter 11
The Linac Test Beam (LTB)
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