Objectives
- Compilation and classification of processes causing performance degradation in hadron storage rings and synchrotrons; ranking of the identified mechanisms according to their relative importance; identification and prioritization of mitigation approaches
- Establish standard body of RAMS knowledge for particle accelerator applications; compile and rank existing RAMS standards, methods and practices in major laboratories; analysis of optimal RAMS characteristics for particle accelerator systems; spreading the identified best RAMS practices in order to introduce a common baseline; assessing the feasibility of an Open Data Infrastructure for accelerator reliability
- Review of existing strategies & methods for beam-impedance assessments and impedance models; proposing and evaluating novel methods to reduce accelerator impedance; identification or development of strategies for electron-cloud mitigation at future accelerators; conceptual design of advanced beam feedback systems for future machines
- Expanding synergies between proposed future ERL projects and operating or soon-to-be-commissioned linacs, recirculating linacs and ERLs in Europe; establishing a parameter database for the various facilities; examining innovative and alternative ERL approaches; working out synergies between linac developers and source developers for optimum beam quality; identifying outstanding open questions and develop prioritized R&D guidelines.
- Analysis of the potential of crystals for charged-particle bending or particle acceleration; development of advanced photon colliders, including gamma-gamma and photon-nucleon colliders; assessment of advanced muon-collider concepts without ionization cooling; assessment of the potential use of large storage rings for gravitational wave detection or generation; assessing and ranking a basket of future concepts with regard to “future feasibility” and physics cases; delivering a white list of ranked future options
Tasks
|
Task # |
Task name |
Task leader |
|---|---|---|
| 6.1 | Coordination and communication | Frank Zimmermann (CERN) Giuliano Franchetti (GSI)< |
| 6.2 | Beam Quality Control in Hadron Storage Rings and Synchrotrons | Giuliano Franchetti (GSI) Frank Zimmermann (CERN) |
| 6.3 | Reliability and Availability of Particle Accelerators | Johannes Gutleber (CERN) Klaus Hoeppner (HIT) |
| 6.4 | Improved Beam Stabilization | Mauro Migliorati (Sapienza & INFN) Alessandro Drago (INFN-LNF) |
| 6.5 | Beam Quality Control in Linacs and Energy Recovery Linacs | Florian Hug (JGU Mainz) |
| 6.6 | Far Future Concepts & Feasibility | Marco Zanetti (INFN & U. Padova) Frank Zimmermann (CERN) |