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WG2 discussion Conveners: G. Ciovati, D. Kostin, Y. Yamamoto.

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Presentation on theme: "WG2 discussion Conveners: G. Ciovati, D. Kostin, Y. Yamamoto."— Presentation transcript:

1 WG2 discussion Conveners: G. Ciovati, D. Kostin, Y. Yamamoto

2 Topics High gradient High Q Cavity fabrication and preparation Instrumentation

3 Gradient: – Reduce field emission: – Do we need more stringent clean room assembly protocols? – Should we push for alternative cleaning techniques: plasma cleaning, dry ice cleaning? – Will X-ray mapping help? – Will most weld issues & local repair become secondary if CBP is used immediately after fabrication? – Any new idea on how to analyze defects at quench locations? What about quench at high field? – Is re-entrant shape going to be pursued further? – Could CBP adapted for low-beta cavity structures to improve gradient?

4 Q 0 : – 9-cell cavity results from KEK show systematically lower Q 0 - values than those treated/tested at DESY. Why? – How do we maintain high Q 0 of cavities in cryomodules? – Will thin film technology be ready for any of the upcoming projects (ESS, MYRRHA, NGLS, PX…)?

5 Cavity fabrication and material do we believe we know all on how to build/prepare cavities: is the R&D saturated? Are there differences in material/preparation for high Q or high gradient application? pros/cons different cavity fabrication/Nb material techniques: seamless and large-grain who/how will continue pursuing alternatives such as large-grain, seamless options (ILC HiGrade?) for higher Q/gradient what do we learn (or have learned) from cavity industrialization: big numbers and companies doing the process

6 VEP – Compare recipes between CEA and Cornell: acid agitation, amount of removal needed… – Is the ultimate goal to replace horizontal EP? Because of economy or performance? 6 V 25 l/min 19 C 60  m removal 14 V 15-19 C < 10  m removal

7 Instrumentation to learn from cavity tests what more do we need? second sound system: as reliable as T-map? Can it replace T-mapping?

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