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Improved High Current ERL Cryomodule

Improved High Current ERL Cryomodule. 5 collaborating institutes: ASTeC (UK): Cavity, coupler, tuner, cryogenics, integration, assembly Cornell University (USA): Cavity, tuner, coupler, absorber, absorber, integration) Stanford University (USA): Tuner, coupler, assembly

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Improved High Current ERL Cryomodule

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  1. Improved High Current ERL Cryomodule 5 collaborating institutes: • ASTeC (UK): Cavity, coupler, tuner, cryogenics, integration, assembly • Cornell University (USA): Cavity, tuner, coupler, absorber, absorber, integration) • Stanford University (USA): Tuner, coupler, assembly • Lawrence Berkeley Laboratory (USA): Cavity • FZD Rossendorf (Germany): Coupler, tuner, integration)

  2. Cryomodule Goals • Design requirements: • Eacc > 20 MV/m @ Qo > 1010 • Qext  1 x 107 to 1 x 108 • Couplers capable of up to 25 kW CW SW • Large HOM damping capability • Issues to be resolved include: • Effective HOM Damping (up to 200W/cavity) • Microphonics sensitivity (< 25 Hz peak) • Fast Tuning (microphonics compensation) • Input Power Delivery (25 kW CW SW) • Cryomodule Design (< 2.5 W static loss) • A 2-cavity cryomodule to be validated with beam: • On ALICE in 2009 • On Cornell ERL injector in 2010

  3. Cryomodule Evolution 2 x 9-cell 1.3 GHz cavity ERLP Module 10 kW CW fixed coupling FPC

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