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Superconducting Accelerating Cryo-Module Tests at DESY TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy Denis Kostin, MHF-SL, DESY.
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Superconducting Accelerating Cryo-Module Tests at DESY 2 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy Overview Module Test Stand CMTB Module Test Procedure Module Test Data Summary
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Superconducting Accelerating Cryo-Module Tests at DESY 3 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy Cryo Module Test Bench
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Superconducting Accelerating Cryo-Module Tests at DESY 4 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy 70K shield Cavity typeTESLA Number of cavities8 Cavity length1.038 m Operating frequency1.3 GHz R/Q1036 Ω Accelerating Gradient20..35 MV/m Quality factor10 10 Q ext (input coupler)3×10 6 Operating temperature2 K LHe cooling 2K / 31mbar HERA cryoplant is used 12m 4K shield input coupler 2 phase LHe pipe He gas return pipe Module / Cryogenics
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Superconducting Accelerating Cryo-Module Tests at DESY 5 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy CMTB RF System
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Superconducting Accelerating Cryo-Module Tests at DESY 6 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy CMTB LLRF System data acquisition
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Superconducting Accelerating Cryo-Module Tests at DESY 7 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy Two gamma detectors are placed near the beam line on both ends of the module (by the end-caps). Gamma detector "GUN"Gamma detector "DUMP" module Module Gamma Radiation Measurement
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Superconducting Accelerating Cryo-Module Tests at DESY 8 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy Module Coupler Common pumping line Ion Getter PumpTi Sublimation Pump Beam line TSP/IGP connected in parallel and IGP used as a vacuum gauge. Module Vacuum System
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Superconducting Accelerating Cryo-Module Tests at DESY 9 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy 3 times e- (charged particles) light in coupler vacuum light in wave guide (air side) temperature cold ceramic temperature warm ceramic vacuum coupler vacuum cavity bias voltage cryogenic OK low level RF gate on klystron all thresholds are hardware set Coupler Technical Interlock
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Superconducting Accelerating Cryo-Module Tests at DESY 10 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy RF Conditioning Data / Controls A.Goessel, DESY.
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Superconducting Accelerating Cryo-Module Tests at DESY 11 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy Module Test Procedure (1)
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Superconducting Accelerating Cryo-Module Tests at DESY 12 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy Module Test Procedure (2)
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Superconducting Accelerating Cryo-Module Tests at DESY 13 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy Module Test Procedure (3)
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Superconducting Accelerating Cryo-Module Tests at DESY 14 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy Module Test Data coupler RF power conditioning8 couplers coupler sensors data history8 couplers k t (cavity probe calibration)8 cavities Q load (at 1.3 GHz)8 cavities Q ext_probe, Q ext_HOM1/2 (at 1.3 GHz)8 cavities frequency / spectra8 cavities E acc.X.start (single)8 cavities E acc.max (single, no Q o )8 cavities X-rays (E acc.max )8 cavities Q o (E acc )module X-rays(Eacc)module cavity conditioning data8 cavities HOM couplers Q ext (Freq_HOM)8 cavities coupler / cavity vacuum pressure e- probes signal (voltage) light (PM) signal (voltage) – not for the XFEL / AMTF spark detector (diode) signal (voltage) cold ceramics temperature (PT1000) T 70K warm ceramics temperature (IR/PT1000) T 300K coupler sensors data RF power / cavity gradient gamma radiation (X-rays) LHe level / pressure
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Superconducting Accelerating Cryo-Module Tests at DESY 15 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy Cryosystem/Cooldown Test temperature measurement: temperature sensors (cavities/couplers + cryogenics) data are stored. multiple cooldown / warm-up test. cavity resonance frequency measurement during the cooldown. cryogenic losses measurement based on temperature and LHe flow data: 2K, 4K and 70K static (infrastructure) and dynamic (RF power) losses. stretch-wire based module dimensional changes measurements.
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Superconducting Accelerating Cryo-Module Tests at DESY 16 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy evaluated error margins for accelerating gradients in this test are about 10..16%. RF Power Calibration R sh /Q=1030 , Lcavity=1.035m, Qload=3 10 6, f 0 =1.3GHz, Pfor 5kW, t fill =1300 s (for calibration, 500 s for flat-top) flat-top RF power pulse Cavities gradients for the 1.3 ms rectangular pulse RF Calibration / Cavity Test
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Superconducting Accelerating Cryo-Module Tests at DESY 17 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy Input RF Couplers coupling tuning range measured at CMTB operating value Q load =3 10 6 RF Couplers Q load Tests
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Superconducting Accelerating Cryo-Module Tests at DESY 18 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy RF Couplers Conditioning History/Data (1) Light IL events 20 s pulses 50,100,200,400,800 s pulses Light IL events
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Superconducting Accelerating Cryo-Module Tests at DESY 19 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy RF Couplers Conditioning History/Data (2) 1300 s pulses TSP fired Light IL events TSP saturated cryo works RF power sweep at 1300 s pulse coupler 1,2,6,8 activity
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Superconducting Accelerating Cryo-Module Tests at DESY 20 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy RF Couplers Conditioning Time
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Superconducting Accelerating Cryo-Module Tests at DESY 21 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy Module Test Results: PXFEL1 Data (1) measured (CMTB)XFEL specification RF power, kW120230200 4K losses, W0.10.260.5 70K losses, W2.53.756.0 static cryo-losses:
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Superconducting Accelerating Cryo-Module Tests at DESY 22 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy Flat-top pulse 500+800μs operation at 10 Hz Module Test Results: PXFEL1 Data (2) dynamic cryo-losses gamma radiation Q 0 (E acc )
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Superconducting Accelerating Cryo-Module Tests at DESY 23 Denis Kostin, MHF-SL, DESY. TESLA Technology Collaboration (TTC) Meeting, February 28 - March 3 2011, Milano, Italy Summary High and low power RF tests, as well as cryogenic tests are conducted on the accelerating SRF modules and cavities/couplers using the Cryo Module Test Bench (CMTB) at DESY. 9 SRF modules (including one 3.9 GHz module) tested until now at CMTB. XFEL Accelerating Module Test Facility (AMTF) is under construction. SRF module test procedure was developed together with test data structure. Module test data is stored for each test and used for the performance analysis. New AMTF facility test data structure will be based upon CMTB and TTF data structure with implementation of module centered data clusters (not only cavity and couplers).
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