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Discover the world-leading superconducting RF technologies at DESY and pioneering detector developments at GSI. Explore recommendations for advancement in accelerator research and cutting-edge detector technologies.
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Matter and technologies@DESY • Observation • DESY has a leading role in SCRF, novel acceleration, fs, detector systems,start to end in accelerators and detector technologies • Main recommendations from POFIII have been reached • Open approach, good communication across divisions • Recommendations • Develop a strategic plan for ARD and DTS to capitalise on DMA • Anchor novel accelerators around ATHENA/ SINBAD/ FLASH FORWARD • Consider cost/power optimization • SCRF and particle physics detectors beyond 2025 to be defined ARD at DESY: 32.6 FTE, DTS at DESY: 22.4 FTE
DESY Evaluation: ARD • Description: • World leading SCRF • Outstanding work on fs beams • Outstanding development of infrastructure for novel accelerators • Recommendations: • Explore/ understand N-infusion mechanism to achieve its full potential • Ensure availablility of resources to demonstrate novel acceleration applications • Develop a focussed and coordinated HPC and laser development effort • Consider how to include low emittance ring (PETRAIV) pre-project into R&D in ARD
DESY EvalUation: DTS • Oberservations: • Particle Physics, Photon Science, Astro detector activities are world-class • Leading role in ATLAS and CMS upgrades • Weakness: • Lack of concrete development goals for particle physics beyond 2025 • Recommendations • Take full advantage of opportunities offered by DMA • Consider involvement in strategic R&D for detectors beyond 2025 and developmentsfor medium-term experiments to fill the gap between LHC and future experiments
GSI DTS (my own extraction) • For detector technology, GSI (in conjunction with Jena and Mainz) provides a major source of new development of detector technology world-wide. • Examples of development and prototyping activities include the development of silicon pixel detectors with 1 million pixels for XFEL, the opto-electronic system with optics for photon sensing, and high-temperature superconducting detectors for fast beam monitoring. They are all reported to DTS, and are high-level technologies. Development of a new crate standard with industry and technology transfer to companies is highly rated. • Much of the detector R&D is original and is expected to contribute to detector technology world-wide. However, most of these activities are organized independently. The review panel encourages an effort to establish a “virtual” distributed detector laboratory for more transparent and rapid access to novel technologies by the researchers in the partner institutes: the Helmholtz Centres DESY, FZJ, HZDR, GSI (through the Helmholtz Institutes Jena and Mainz) and KIT. DTS at GSI: 0.8 at HIM, 0.5 at HIJ
GSI: ARD General remarks Activities at the GSI accelerator facility and construction of FAIR are discussed. A part of the GSI accelerator activities is included in the programme topic “Accelerator Research and Development (ARD)”. For the topic ARD, the programme size seems reasonable. The infrastructure at GSI is excellent for the ARD activity. ARD research is well funded. A specific strength of GSI is the presence of excellent researchers in the accelerator section. In addition, strong international collaborators actively participate in the accelerator research and development at GSI. On the other hand, a weakness is the lack of beam time. ARD@GSI: 3.3 FTE at HIM, 7.0 FTE at HIJ
GSI: ARD Contributions from GSI are essential for the FAIR construction and Accelerator R&D programmes. FAIR is a project with partners from more than 50 countries. GSI has been continuing the effort as the host laboratory of the international project to take the leading role in most of the design of accelerator components and in R&D of critical devices at the FAIR facility. Impact of the Centre’s contribution is “outstanding”. GSI is a unique accelerator facility internationally and users come from all over the world. FAIR will be even more special: it will be one of the most prominent international centres of accelerator science. Specific recommendations • Continue to develop understanding and novel techniques for reaching high brilliant ion beams throughout the GSI accelerator chain. This includes R&D of ion sources and further upgrade of the UNILAC. • For the SC CW-CH linac, the proposed AD project is reasonable and important as the next step.