High Power ④ 1 STF Cavity Group Process Log Data Summary of LFD Result of LFD Summary of LFD RF Kirk.

High Power Test @S1-Global ④ 1 STF Cavity Group Meeting @2010/10/25 Process Log Data Summary of LFD Result of LFD Summary of LFD RF response @Quench Kirk

Process Log of High Power Test ① 2 STF Cavity Group Meeting @2010/10/25 10/513:00Safety check for radiation in tunnel 13:05HV ON / TRG ON / RF ON 13:48Tuner set / RF conditioning of C1 starts 13:53X-ray emits @13.3MV/m 17:14RF Off by Arc #1 I/L @~217kW 17:32pulse width of flat-top : 100μs  1000μs 17:52RF Off by Q L I/L @~28MV/m (Quench!) 17:56RF Off by Q L I/L @~28MV/m (Quench!) 18:00F.B. ON 18:25RF Off by Vac. I/L 18:33LFD measurement by pulse shortening @27.2MV/m 18:59RF Off by Q L I/L @~28MV/m (Quench!) C1 : 27.2MV/m under condition of F.B. ON C1 Cavity

Process Log of High Power Test ② 3 STF Cavity Group Meeting @2010/10/25 10/613:26HV ON / TRG ON 13:35RF ON 14:30LFD measurement by FNAL starts Offset scanning / Delay scanning 18:30Piezo compensation by FNAL system starts F.B. Off DAQ system did not work well. Retry tomorrow! 18:57fin. C1 Cavity

Process Log of High Power Test ③ 4 STF Cavity Group Meeting @2010/10/25 10/713:00HV ON / TRG ON 13:07RF ON Keep without F.B. @25MV/m 13:30RF Off by unknown reason 14:30Piezo compensation by FNAL system starts 15:30Piezo compensation + F.B. ON by FNAL starts 15:50Waveguide connection from C1 to C4 cavity 16:05HV ON / TRG ON / RF ON 16:15RF Off by Q L I/L @~28MV/m (Quench!) 16:27RF Off by Q L I/L @~27MV/m (Quench!) 16:45Piezo compensation by FNAL starts @28MV/m 17:52Piezo compensation + F.B. ON by FNAL starts @27.4MV/m 18:55fin. C1 Cavity  C4 Cavity

Process Log of High Power Test ④ 5 STF Cavity Group Meeting @2010/10/25 10/8 9:30Waveguide connection from C4 to C3 cavity 13:14HV ON / TRG ON / RF ON 13:25Piezo compensation by FNAL starts @18.9MV/m 14:15F.B. ON 14:20RF Off by Q L I/L @~19MV/m (Quench!) 14:42Piezo compensation + F.B. ON by FNAL starts @18.2MV/m 15:00Waveguide connection from C3 to C2 cavity 15:16HV ON / TRG ON / RF ON 15:20Piezo compensation by FNAL starts @22.6MV/m 17:12Piezo compensation + F.B. ON by FNAL starts @22.2MV/m 18:57fin. C3 Cavity  C2 Cavity

Process Log of High Power Test ⑤ 6 STF Cavity Group Meeting @2010/10/25 10/1413:00HV ON / TRG ON / RF ON 14:16Quench, but any I/L did not work, He pressure increasing Q L I/L was not set! 14:33RF On 14:36Piezo compensation by FNAL starts 17:30Piezo compensation + F.B. ON by FNAL starts But, system did not work well 18:55fin. C1, 2 Cavities

Process Log of High Power Test ⑥ 7 STF Cavity Group Meeting @2010/10/25 10/15 9:30Waveguide connection from C1, 2 to C3, 4 cavity 13:20HV ON / TRG ON / RF ON C4 detuned for LFD measurement of C3 14:09F.B. ON 14:18Keep with F.B. ON @15MV/m 16:22LFD measurement by FNAL starts 17:42Change from C3 to C4 for LFD measurement C3 detuned, C4 tuned 17:57LFD measurement by FNAL starts 18:51fin. C1, 2 Cavities  C3, 4 Cavities

Process Log of High Power Test ⑦ 8 STF Cavity Group Meeting @2010/10/25 10/13 9:35Waveguide connection to A2(MHI#6) and C1(AES#4) cavities 12:50Refrigerator ready 13:05Safety check for radiation in tunnel 13:10HV ON / TRG ON / RF ON 13:22Tuner set / Q L I/L worked (No I/L during tuner set) 13:44RF conditioning of A2 (MHI#6) starts / Vac. I/L worked (3x10 -5 Pa) 14:00RF Off by abnormal power supply of Klystron #2 Safety I/L by Door open in underground Safety check again 14:14HV ON / TRG ON / RF ON 14:32RF Off by Vac. I/L (Level set : 3x10 -5 Pa  2x10 -4 Pa) 15:18RF Off by Arc #2 I/L @~35MV/m 15:37RF Off by Arc #2 I/L @453kW 16:37RF Off by Arc #2 I/L @453kW 17:07RF Off by Vac. I/L @453kW 17:20LFD measurement starts by FNAL @30MV/m 18:05I/L Level set : 2x10 -4 Pa  3x10 -4 Pa 18:07RF Off by Q L I/L @40.0MV/m (Quench!) 18:29tuner set 18:49RF Off by Q L I/L @37.7MV/m (Quench!) A2 : 40.0MV/m under condition of Piezo ON (by FNAL) and F.B. Off A2 Cavity

Process Log of High Power Test ⑧ 9 STF Cavity Group Meeting @2010/10/25 10/1413:29HV ON / TRG ON / Disable Q L I/L 13:39RF ON / tuner set RF conditioning of A3 (MHI#7) starts with pulse width = 100μsec 13:52X-ray detected @13.4MV/m 13:57RF Off by Arc #3 I/L (~100kW) 14:02RF Off by Arc #3 I/L (~130kW) 14:03RF Off by Arc #3 I/L (~135kW) 14:45RF Off by Arc #3 I/L (~180kW) / Vac. I/L [3x10 -4 Pa  2x10 -4 Pa] 14:53RF Off by Arc #3 I/L (~212kW) 14:56RF Off by Arc #3 I/L (~224kW) 15:09RF Off by Arc #3 I/L (~282kW) 15:18RF Off by Arc #3 I/L (~330kW) 15:33Quench with 100μs @33.5MV/m / RF Off by Q L I/L 15:46Quench with 100μs @33.5MV/m / RF Off by Q L I/L 15:47pulse width of flat-top : 100μs  1000μs 16:24RF Off by Arc #3 I/L (~300kW) 16:31Quench with 1000μs @31.3MV/m / RF Off by Q L I/L 16:52Quench with 1000μs @31.8MV/m / RF Off by Q L I/L A3 Cavity

Process Log of High Power Test ⑨ 10 STF Cavity Group Meeting @2010/10/25 10/1417:00F.B. ON 17:25RF Off by Q L I/L (Not Quench, due to noise) 17:28RF Off by Q L I/L (Not Quench, due to noise) 17:31RF Off by Q L I/L (Not Quench, due to noise) 17:40RF Off by Q L I/L (Not Quench, due to noise) [1.8x10 6  1.5x10 6 ] 17:56RF Off by Q L I/L @32MV/m 18:04RF Off by Q L I/L (Not Quench) [1.5x10 6  1.3x10 6 ] 18:14LFD measurement by pulse shortening @31.7MV/m Miss-data taking due to cPCI1, not cPCI2 18:42RF Off by Arc #2 I/L (~390kW) 18:452000 pulses stored under F.B. ON @31.7MV/m 18:57fin. A3 : 31.7MV/m under condition of F.B. ON A3 Cavity

Process Log of High Power Test ⑩ 11 STF Cavity Group Meeting @2010/10/25 10/1513:35HV ON / RF ON / Q L I/L system renewal (but, not good) 14:20LFD measurement by FNAL starts (Offset scanning) 15:34Delay scanning starts @25MV/m 16:20LFD measurement by FNAL finishes 13:46RF Off by Vac. I/L 16:35F.B. ON 17:09RF Off by Arc #3 I/L 17:10RF Off by Q L I/L x 2 17:23LFD measurement by pulse shortening @31.7MV/m 18:0010,000 pulses data taking for A3 @31.7MV/m 18:51fin. A3 Cavity

STF Cavity Group Meeting @2010/10/25 10/19 9:20Waveguide connection from A3 to A1 cavity 13:00Safety check for radiation in tunnel 13:17HV ON / TRG ON / RF ON Abnormal tuner position on operation panel appears  Network error for IOC 13:33A1(MHI#5) conditioning starts 13:51electron detected from end of beampipe @8.6MV/m 13:59RF Off by Q L I/L 14:04RF Off by Q L I/L 14:11RF off by Arc #1 14:13RF Off by Q L I/L @19.3MV/m 14:19RF Off by Arc #1 @120kW 14:21RF Off by Arc #1 @118kW 15:03RF Off by Arc #1 @~140kW 15:13RF Off by Arc #1 @154kW 15:35RF Off by Q L I/L 15:49RF Off by Arc #1 x 2 16:09RF Off by Arc #1 @215kW 16:18RF Off by Arc #1 16:25RF Off by Arc #1 16:40RF Off by Q L I/L 16:59RF Off by Q L I/L @29.0MV/m A1 Cavity Process Log of High Power Test ⑪ 12

STF Cavity Group Meeting @2010/10/25 10/1917:00pulse width of flat-top : 100μs  1000μs 17:05Q L I/L : 0.8 x 10 6  1.3 x 10 6 17:30RF Off by Q L I/L (Quench) @27Mv/m 17:34RF Off by Q L I/L (Quench) @27Mv/m 17:36RF Off by Arc #1 F.B. ON RF Off by P f I/L 18:31LFD measurement by pulse shortening @28.0MV/m 18:54RF Off by Q L I/L (Quench) @28.5Mv/m 18:56fin. A1 Cavity Process Log of High Power Test ⑫ 13

STF Cavity Group Meeting @2010/10/25 10/20 9:20Waveguide connection from A1 to A4 cavity 13:00Safety check for radiation in tunnel Set f 0 to 1299.900MHz, because of tuner trouble 13:17HV ON / TRG ON / RF ON / Q L I/L = 1.4 x 10 6 14:00A4(MHI#9) conditioning starts 14:03RF Off by Q L I/L @10MV/m 14:10RF off by Arc #4 @56kW 14:11RF Off by Q L I/L @13MV/m 14:14RF off by Arc #4 @68kW 14:20RF off by Arc #4 14:21RF Off by Q L I/L 14:14RF off by Arc #4 14:42RF off by Arc #4 x 4 15:13RF Off by Q L I/L x 4 @~23MV/m 15:25pulse width of flat-top : 100μs  1000μs 15:48RF off by Arc #4 16:13RF Off by Q L I/L @23.3MV/m 16:16RF Off by Q L I/L @23.3MV/m 16:18RF Off by Q L I/L @23.1MV/m A4 Cavity Process Log of High Power Test ⑬ 14 Quench!!

STF Cavity Group Meeting @2010/10/25 10/2016:22F.B. ON (Not smooth introduction!) RF Off by P f RF off by Arc #4 RF Off by P f 16:36RF Off by Q L I/L @21.9MV/m 16:40RF Off by Q L I/L @21.4MV/m 16:44RF Off by Q L I/L 16:47RF Off by Q L I/L @20.9MV/m (Quench field gradually decreasing) 16:55RF Off by Q L I/L @20.2MV/m 17:03LFD measurement by pulse shortening @19.1MV/m RF Off by Q L I/L many times During measurement, liquid helium became empty, because A4 is set to downstream of CM-A Not continued to measure Restarting helium transfer, but taking long time 17:30fin. A4 Cavity Process Log of High Power Test ⑭ 15

STF Cavity Group Meeting @2010/10/25 10/2114:00HV ON (Waiting longer than usual) 14:04RF ON / F.B. ON / tuner set 14:19TRG Off / HV Off (C4 had quench and helium pressure increased) 15:29HV ON / TRG ON / RF ON / F.B. ON (wait for 1 hour) 15:37RF Off by Q L I/L @21.0MV/m 15:50RF Off by Q L I/L 16:04RF Off by Q L I/L (?) 16:21RF Off by P f 16:31RF Off by Q L I/L (?) 16:35RF Off by P f 16:38RF Off by Q L I/L (?) It is necessary to set lower gradient, once RF Off occurs 16:44RF Off by Q L I/L @24MV/m 17:10LFD measurement by pulse shortening @23.3MV/m 17:3915,000 pulses data taking @23.3MV/m 19:00fin. A4 Cavity Process Log of High Power Test ⑮ 16

STF Cavity Group Meeting @2010/10/25 10/22 9:00Waveguide connection from A4 to A2 cavity 9:40Refrigerator trouble for turbine It was hard to recover it immediately Give up high power test today 10/2512:00Refrigerator system recovered! Operation restarts Cavities will reach 2K by 18:00 tomorrow A2 Cavity Process Log of High Power Test ⑯ 17

Comparison of Achievable Gradient between Vertical Test and Cryomodule Test STF Cavity Group Meeting @2010/10/25 18

Evaluation for LFD @S1-Global 19 STF Cavity Group Meeting @2010/10/25  Pulse-cut method  １００パルスの平均値と R.M.S. から求める。  flat-top のみと全パルス幅での時間領域に分けて評価する。  微分方程式から求めた結果と比較する。  Brandt 氏の方法による結果と比較する。  Long time operation  2,000 パルスの結果から micro phonics の影響を評価する。  10,000(15,000) パルスの結果を用いて評価する（一部）。  Q 0 測定中の長時間データから評価する（最適条件）。  Piezo の有り無しでの変化を評価する。  １空洞、４空洞、８空洞運転での変化を評価する。

Data Summary of LFD @S1-Global ① 20 STF Cavity Group Meeting @2010/10/25 CavityDateTypeGradientF.B.Piezo# of pulse C1 (AES#4)2010/10/5pulse-cut27.2ONOff100 2010/10/7FNAL25.6OffON100 FNAL27.0OffON100 FNAL27.1OffON2,000 FNAL27.0ON 100 27.0ONOff100 C2 (ACC#11)2010/9/29pulse-cut22.0ONOff100 2010/10/8FNAL22.6OffON (no iter.)2,000 FNAL22.2ONON (no iter.)2,000 C3 (ZANON#108)2010/9/30pulse-cut18.0ONOff100 2010/10/8FNAL18.9OffON2,000 FNAL18.2ON 2,000 2010/10/15long time15.0ONOff2,000 C4 (ZANON#109)2010/10/1pulse-cut28.5ONOff100 pulse-cut29.2ONOff100 FNAL28.0OffON100 FNAL27.4ON 2,000 25.0ONOff100

Data Summary of LFD @S1-Global ② 21 STF Cavity Group Meeting @2010/10/25 CavityDateTypeGradientF.B.Piezo# of pulse A1 (MHI#5)2010/10/19pulse-cut28.0ONOff100 A2 (MHI#6)2010/9/24pulse-cut31.5ONOff100 pulse-cut34.2ONOff100 A3 (MHI#7)2010/10/14long time31.7ONOff2,000 2010/10/15pulse-cut31.7ONOff100 long time31.7ONOff10,000 A4 (MHI#9)2010/10/20pulse-cut (interruption) 19.1ONOff100 2010/10/21pulse-cut23.3ONOff100 long time23.3ONOff~4,000 (1Hz) long time23.3ONOff15,000 (2~3Hz) ※ A4 空洞の 10/20 のデータは途中でヘリウムが無くなったため中断した。

STF Cavity Group Meeting @2010/10/25 Result of LFD for AES#4 @S1-Global 22 27.2MV/m (F.B. ON) 336Hz 708Hz

STF Cavity Group Meeting @2010/10/25 Result of LFD for ACC#11 @S1-Global 23 22.0MV/m (F.B. ON) 230Hz 478Hz

STF Cavity Group Meeting @2010/10/25 Result of LFD for Z#108 @S1-Global 24 18.0MV/m (F.B. ON) 245Hz440Hz

STF Cavity Group Meeting @2010/10/25 Result of LFD for Z#109 @S1-Global 25 29.2MV/m (F.B. ON) 552Hz1003Hz

STF Cavity Group Meeting @2010/10/25 Result of LFD for MHI#5 @S1-Global 26 28.0MV/m (F.B. ON) 83Hz 436Hz

STF Cavity Group Meeting @2010/10/25 Result of LFD for MHI#6 @S1-Global 27 34.2MV/m (F.B. ON) 183Hz 710Hz 183Hz 710Hz

30 STF Cavity Group Meeting @2010/10/25 A1 MHI#5 A2 MHI#6 A3 MHI#7 A4 MHI#9 C1 AES#4 C2 ACC#11 C3 ZANON #108 C4 ZANON #109 Gradient [MV/m] 28.034.2 (31.5) 31.723.327.222.018.029.2 (28.5) △ f detuned (total) [Hz] 4367105583997084784401003 △ f detuned (rise-up) [Hz] 353527427219372248195451 △ f detuned (only flat-top) [Hz] 83183131180336230245552 Q L (High Power) [x10 6 ] 2.552.502.422.312.322.342.372.43 Q L (Low Power) [x10 6 ] 2.41 2.402.412.40 2.412.40 Average [pulses] 100 Summary of Lorentz Force Detuning

Comparison of LFD between Phase-1 and S1-Global STF Cavity Group Meeting @2010/10/25 31

STF Cavity Group Meeting @2010/10/25 Long time operation for Z108 @15.0MV/m ① 32 F.B. ON で 15.0MV/m キープ状態で 15 分ほどの間に測定された結果。（解析の際の fitting range は同じ） Q L も Δf も共に安定している。 2,000 パルスのデータを取得した。

STF Cavity Group Meeting @2010/10/25 Long time operation for Z108 @31.7MV/m ② 33 2,000 パルスのヒストグラムの結果。

STF Cavity Group Meeting @2010/10/25 Long time operation for A3 @31.7MV/m ① 34 ~1.0hour F.B. ON で 31.7MV/m キープ状態で１時間ほどの間に測定された結果。（解析の際の fitting range は同じ） Q L に関しては、徐々に減少していく様子が見てとれる。数値が下がるということは、パルスエンドの傾きがなだらかになっていくことを意味する。何らかのノイズの影響が入りこんでいるのか？ Δf の方も同様に中心値が下がっていく様子が見てとれるが、たかだか 10Hz 程度である。 10,000 パルスのデータを取得した。

STF Cavity Group Meeting @2010/10/25 Long time operation for A3 @31.7MV/m ② 35 10,000 パルスのヒストグラムの結果。

STF Cavity Group Meeting @2010/10/25 Long time operation for A4 @23.3MV/m ① 36 1.5hour F.B. ON で 23.3MV/m キープ状態で１時間半ほどの間に測定された結果。（解析の際の fitting range は同じ） Q L に関しては、徐々に減少していく様子が今回も見てとれる。何か共通の原因があるのか？ Δf の方は、振幅が徐々に拡がっていく様子が見てとれる。この間のヘリウム圧はほぼ一定であり、別なメカニズムに因り空洞周波数の振る舞いが揺れ動いていることを意味する。この振る舞いは前回には見られなかったものである。 15,000 パルスのデータを取っていた時間帯 15,000 パルスのデータを取得した。

STF Cavity Group Meeting @2010/10/25 Long time operation for A4 @23.3MV/m ② 37 15,000 パルスのヒストグラムの結果。

STF Cavity Group Meeting @2010/10/25 Long time operation for A4 @23.3MV/m ③ 38

STF Cavity Group Meeting @2010/10/25 Long time operation for A4 @23.3MV/m ④ 39

STF Cavity Group Meeting @2010/10/25 Long time operation for A4 @23.3MV/m ⑤ 40

STF Cavity Group Meeting @2010/10/25 Long time operation for A4 @23.3MV/m ⑥ 41

STF Cavity Group Meeting @2010/10/25 Long time operation for A4 @23.3MV/m ⑦ 42 100 パルス毎の重ね合わせ図 V C Feedback system はよく機能している E acc の変動はたかだか 0.4% 程度である

STF Cavity Group Meeting @2010/10/25 Long time operation for A4 @23.3MV/m ⑧ 43 100 パルス毎の重ね合わせ図

High Power ④ 1 STF Cavity Group Process Log Data Summary of LFD Result of LFD Summary of LFD RF Kirk.

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High Power ④ 1 STF Cavity Group Process Log Data Summary of LFD Result of LFD Summary of LFD RF Kirk.

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