| Miniproposals | ||||||||||
| ||||||||||
|
| Operators | |
| Session leader(s): | John Rice,Stewart Zweben |
| Physics operator(s): | Joseph Snipes |
| Engineering operator(s): | Unknown |
| Engineering Operator Run Comment |
| MP#375 Rot/SSEP, L-H thresh (1/2d)/MP#330 Edge minority htg (1/2d) SL:Ri |
| Session Leader Plans |
| Physics Operators Plans |
| Session Leader Summaries |
| Entered: Jul 7 2004 03:49:03:040PM |
| Author: John Rice |
| Session Leader Run Summary for 1040220a, MP#375, Rotation and H-mode Power Threshold vs. SSEP The first part of the run was achieved, reconfirming the very strong L-mode rotation velocity dependence on SSEP. The core rotation velocity dropped (more counter-current) by 25 km/s with a change in SSEP from -2.8 mm to +2.1 mm. The H-mode power threshold for SSEP=-2.8 mm was found to be around 1.2 MW of ICRF; 1.4 MW produced an H-mode while 1.0 MW did not. For SSEP=+2.1 mm, H-mode was obtained with 2.4 MW but the threshold could not be obtained since the run was turned over to part b. This part of the run had 8/20 shots as fizzles, in addition to two lengthy delays due to the data acquisition. A few more shots would have completed the job. |
| Entered: Jul 7 2004 03:49:03:243PM |
| Author: Stewart Zweben |
| Session Leader Run Summary for 1040220b, MP330, Edge Minority Heating Session Leader: S.Zweben Physics operator:J. Snipes The main goal of this run was achieved; namely, it was found that edge minority heating at RF power levels of up to 5 MW still did not create an H-mode via the (theoretically) anticipated mechanism of minority tail ion loss. Several variants on the basic inner-wall resonance condition (as in 1030604023) were tried during this run: higher power RF (shots 021 and 022), positive RF antenna phasing (023), negative phasing (024), movement of the resonance farther inward by 2% (025), low Ip = 0.4 MA to increase ion loss (026 and 028), and Helium majority plasma (029 and 030). None of these variations resulted in a clear H-mode transition. Analysis of these results is in progress, and no more run time seems to be needed for this experiment. Shot summary 1040220021 - good, repeat of 1030604023 with up to 5 MW of RF 1040220022 - good, repeat of 021 1040220023 - good, now RF with (+) phasing (021 and 022 were 0 phasing) 1040220024 - good, now RF with (-) phasing (021 and 022 were 0 phasing) 1040220025 - good, this show like 021 and 022 but with 2% lower B 1040220026 - fair, try for 021 but with 0.4 MA, RF very ragged 1040220027 - fizzle 1040220028 - fair, try for 021 but with 0.4 MA, RF very ragged (like 026) 1040220029 - fair, repeat of 021 but with He fuelled plasma, shot a bit short 1040220030 - good, repeat of 021 but with He fuelled plasma 1040220031 - fizzle |
| Physics Operator Summaries |
| Entered: Jul 7 2004 04:36:49:037PM |
| Author: Joseph Snipes |
| Engineering Setup and Run Plan 1040220 MP#375 Rot/SSEP, L-H thresh (1/2d) Rice MP#330 Edge minority htg (1/2d) Zweben Session leaders: Rice, Zweben Physop: Snipes Engineering Setup: ECDC Overnight in D2, stopping by 07:00 Run Begins at 09:00 and ends at 17:00 Power Supplies as on 1040123013 Gas System Setup: fill B-Top with 6 psi D2 Hybrid enabled (PG4) fill B-side lower with 1 psi Ar Hybrid enabled (PG1) leave B-side upper as is Hybrid DISABLED (PG2) fill C-side with 30 psi D2 Hybrid enabled (PG3) fill NINJA (lower cap) with 5 psi He All diagnostic valves (ECE, VUV, DNB) Enabled assuming no vacuum problems RF: Transmitters #1,2,3 and 4 in RUN-ON by 08:00 Run plans: For the first half of the run, we will run MP#375 Rot/SSEP, L-H thresh (1/2d) let's start with 1040123013. we'll run a few of those, adjusting the ICRF power level. then we'll increase SSEP slightly, like 1040123017 and do the same. then again, like 1040123015. followed by MP#330 Edge minority htg (1/2d) Zweben We are assuming that we will have about 5 MW of RF at about 78-80 MHz, and these diagnostics: Edge TS - crucial Dalsa VB array - crucial neutrons core TS D_alpha fast diodes DNB with MSE (just in case) ECE set for central measurement at 5.4T - this gives some outer coverage at 6.64 T (R>0.82m) HIREX rotation TV cameras looking at J port antenna RF configuration: Bays D and E: 80 MHz and 80.5 MHz, Bay J: 78 MHz Assume available total RF power > 4 MW Time sequence: on 0.2 sec, off 0.1 sec, on 0.2 sec etc 1) shots #1-3: repeat INNER wall resonance case at high RF power template: 1030604023, I=0.6 MA, B=3.82 T H-minority resonances at: 49.7 cm, 48.4 cm, 48.1 cm 2) shots #4-6: repeat OUTER wall resonance case at high RF power template: 1030604030, I=0.6 MA, B=6.64 T H-minority resonances at: 85.8 cm, 83.6 cm, 83.1 cm (if H-mode is triggered by RF in any one of these, try central heating for comparison and then lower RF to find threshold) 3) shots #7-8: repeat (1) at I=0.3 MA instead of 0.6 MA 4) shots #9-10: repeat (2) at I=0.3 MA instead of 0.6 MA 5) shots #11-12: vary RF phasing in one of these conditions 6) shots #13-14: try He4(H) in one of these conditions Summary: The run was plagued with computer data system failures where 5 official shots were lost and several hours. In addition, there were six fizzles often for unclear reasons. On shot 17, the neutral pressure at breakdown was three times what it should have been despite the same programming as other shots and so it fizzled. It also seems that Bz changed during the day and a more negative Bz helped toward the end, but then another fizzle occured on the next to last shot as well. Nonetheless, some good data was obtained for both miniproposals. See the session leader's run summaries for details. Shot,Duration(s),Ipmax(MA) Shot,Duration(s),Ipmax 1 1.918 0.795 2 No Ip 3 0.000 0.002 4 1.908 0.799 5 1.925 0.799 6 1.953 0.804 7 0.000 0.036 8 1.968 0.805 9 1.956 0.811 10 0.000 0.047 11 1.960 0.807 12 1.960 0.799 13 0.000 0.052 14 1.924 0.801 15 No data 16 No data 17 0.000 0.028 18 1.953 0.806 19 0.000 0.041 20 1.949 0.805 21 1.941 0.675 22 1.461 0.674 23 1.954 0.644 24 1.436 0.658 25 1.357 0.695 26 1.952 0.698 27 0.000 0.002 28 1.947 0.659 29 0.962 0.667 30 1.437 0.693 31 0.000 0.045 32 0.260 0.644 Finished summary for 1040220 Total of 32 shots. 32 shots. 21 plasmas. 6 fizzles. 5 test shots Shot 1: Loaded shot 1040123013 and changed the prepuff to 17 ms duration. This shot uses segment 4 with SSEP control. Good shot. RF constant at 1.2 MW remains in L-mode. Shot 2: Lowered SSEP by 1.5 mm. It has a ramp from -5 mm to -6.5 mm throughout the flattop, which then keeps it constant at about -0.27 cm in EFIT. Data systems test only. No plasma. Shot 3: Try again with another no power test shot. Shot 4: Try again with plasma. Good shot. Remains in L-mode with 1.2 MW of RF. Shot 5: Lowered SSEP by another 2 mm. Reduced nl04 to 7 x 10^19 m^-2. Good shot. Still no H-mode with 1.2 MW of RF. Shot 6: Repeat with more RF power. Good shot. Just got an H-mode at 1.45 s with 1.7 MW of RF. Shot 7: Decreased SSEP by another mm to a ramp from -7.5 mm to -8.5 mm. Also increased preprogrammed gas puff in segment 1 to 100 V at 0.044 and 0.098 s. Fizzle! Shot 8: Added another time point at 0.031 s for the gas puff in segment 1 to keep the gas lower during the startup. Try again. Good shot. H-mode at 1.35 s. Shot 9: Copied SSEP from shot 1 to return to near double null. Removed two time points around 0.5 s in RXL due to fears that there was some plasma interaction at that time. It is at the time of OH1 crossover, which lasts from 0.45 to 0.51 s on shot 8 where the plasma is not well controlled. Good shot with a series of weak H-modes. Shot 10: Fizzle! Shot 11: Decreased EF4 current to -1342 A and decreased prepuff by 1 ms to 16 ms duration. Good shot with several H-modes. Shot 12: Reduced Br0 by 0.2 mT to 0.3 mT. Good shot. RF down to 1 MW remained in L-mode though with some signs of dithering. Shot 13: Increased SSEP by 2 mm to ramp from -1 mm to -2 mm. Fizzle! Shot 14: Reduced EF4 current a tiny bit to -1345 A. Increased SSEP by yet another 2 mm to ramp from +3 mm to 2 mm. Good shot. Remained in L-mode with 1.8 MW of RF. Shot 15: Reduced SSEP by 2 mm ramping from 1 mm to 0 mm. Data system failure with a long delay. Finally a no power shot. Shot 16: No power test shot. Data system failure. Shot 17: Fizzle! Very high neutral pressure at breakdown for some reason. Shot 18: Repeat. Good shot with several H-modes. Shot 19: Repeat with lower RF power. Fizzle! Shot 20: Lowered EF4 current by another 10 A to -1355 A. Also reduced prepuff by 1 ms to 15 ms duration. Good shot. H-mode starting at 1.26 s. Shot 21: Starting Zweben's MP. Copied shot 1030604023. Then, loaded segment 1 from shot 1040220020 to keep the beautiful startup. Then, dropped the gas puff in segment 1 for the two points at 0.044 and 0.098 s back to 40 V. Good shot. RF up to 5.5 MW with no clear H-modes. Shot 22: Repeat. Good shot though it disrupted at 1.46 s. No clear H-modes. Shot 23: Repeat. Good shot. Shot 24: Repeat. Good shot. Disrupted at 1.42 s. Shot 25: Reduced TF current from 103 kA to 101 kA in segment 2. Good shot. Disrupted at 1.35 s. Shot 26: Returned to 103 kA on the TF and dropped the current after 0.5 s to 0.4 MA. Good shot. Shot 27: Repeat to attempt to tune the RF better. Two no power shots due to computer system problems again. Shot 28: Try again. Finally got another plasma shot. Good shot. Shot 29: Changing the main gas from C-side from deuterium to helium to go to helium plasmas, though we will continue to breakdown with a short deuterium gas puff. Reloaded shot 23. Raised Br0 to 0.5 mT. Disrupted at 0.95 s. Shot 30: Turned off preprogrammed gas puff in segment 2. Better shot without a MARFE. Still disrupts at 1.43 s. Shot 31: Lowered nl04 to 4 x 10^19 m^-2. Fizzle! Shot 32: Increased EF4 current to -1350 A and decreased Br0 to 0.3 mT. Reduced Ip to 0.4 MA after 0.5 s. Disrupted at 0.25 s. |
| Session Leader Comments | |||
| Feb 20 2004 09:16:03:820AM | 1040220001 | John Rice | SSEP -0.25, ICRF 1.2 MW, no H-mode |
| Feb 20 2004 09:48:03:840AM | 1040220002 | John Rice | test |
| Feb 20 2004 09:48:12:777AM | 1040220003 | John Rice | test |
| Feb 20 2004 09:52:54:770AM | 1040220004 | John Rice | SSEP -0.45, ICRF 1.2 MW, no H-mode |
| Feb 20 2004 10:09:23:823AM | 1040220005 | John Rice | SSEP -0.65, ICRF 1.2 MW, no H-mode |
| Feb 20 2004 10:24:46:240AM | 1040220006 | John Rice | SSEP -0.67, ICRF 1.7 MW, no H-mode |
| Feb 20 2004 10:39:37:310AM | 1040220007 | John Rice | fiz |
| Feb 20 2004 10:49:56:213AM | 1040220008 | John Rice | SSEP -0.77, ICRF 1.8 MW, late H-mode |
| Feb 20 2004 11:05:18:863AM | 1040220009 | John Rice | SSEP -0.28, ICRF 1.7 MW, H-mode |
| Feb 20 2004 11:15:48:600AM | 1040220010 | John Rice | fiz |
| Feb 20 2004 11:32:33:983AM | 1040220011 | John Rice | SSEP -0.28, ICRF 1.4 MW, H-mode |
| Feb 20 2004 11:47:16:770AM | 1040220012 | John Rice | SSEP -0.28, ICRF 1.0 MW, no H-mode |
| Feb 20 2004 11:59:10:307AM | 1040220013 | John Rice | fiz |
| Feb 20 2004 12:18:10:257PM | 1040220014 | John Rice | SSEP =0.43, ICRF 1.8 MW, no H-mode |
| Feb 20 2004 12:56:12:847PM | 1040220015 | John Rice | SSEP = +0.25, ICRF 3.0 MW, H-mode |
| Feb 20 2004 01:17:41:503PM | 1040220016 | John Rice | test |
| Feb 20 2004 01:17:49:457PM | 1040220017 | John Rice | fiz |
| Feb 20 2004 01:33:16:623PM | 1040220018 | John Rice | SSEP +0.25, ICRF 2.7 MW, H-mode |
| Feb 20 2004 01:54:37:543PM | 1040220019 | John Rice | fiz |
| Feb 20 2004 01:56:38:063PM | 1040220020 | John Rice | SSEP +0.21, ICRF 2.3 MW, late H-mode |
| Physics Operator Comments | |||
| Feb 20 2004 08:35:57:680AM | Joseph Snipes | Engineering Setup and Run Plan 1040220 MP#375 Rot/SSEP, L-H thresh (1/2d) Rice MP#330 Edge minority htg (1/2d) Zweben Session leaders: Rice, Zweben Physop: Snipes Engineering Setup: ECDC Overnight in D2, stopping by 07:00 Run Begins at 09:00 and ends at 17:00 Power Supplies as on 1040123013 Gas System Setup: fill B-Top with 6 psi D2 Hybrid enabled (PG4) fill B-side lower with 1 psi Ar Hybrid enabled (PG1) leave B-side upper as is Hybrid DISABLED (PG2) fill C-side with 30 psi D2 Hybrid enabled (PG3) fill NINJA (lower cap) with 5 psi He All diagnostic valves (ECE, VUV, DNB) Enabled assuming no vacuum problems RF: Transmitters #1,2,3 and 4 in RUN-ON by 08:00 Run plans: For the first half of the run, we will run MP#375 Rot/SSEP, L-H thresh (1/2d) let's start with 1040123013. we'll run a few of those, adjusting the ICRF power level. then we'll increase SSEP slightly, like 1040123017 and do the same. then again, like 1040123015. followed by MP#330 Edge minority htg (1/2d) Zweben We are assuming that we will have about 5 MW of RF at about 78-80 MHz, and these diagnostics: Edge TS - crucial Dalsa VB array - crucial neutrons core TS D_alpha fast diodes DNB with MSE (just in case) ECE set for central measurement at 5.4T - this gives some outer coverage at 6.64 T (R>0.82m) HIREX rotation TV cameras looking at J port antenna RF configuration: Bays D and E: 80 MHz and 80.5 MHz, Bay J: 78 MHz Assume available total RF power > 4 MW Time sequence: on 0.2 sec, off 0.1 sec, on 0.2 sec etc 1) shots #1-3: repeat INNER wall resonance case at high RF power template: 1030604023, I=0.6 MA, B=3.82 T H-minority resonances at: 49.7 cm, 48.4 cm, 48.1 cm 2) shots #4-6: repeat OUTER wall resonance case at high RF power template: 1030604030, I=0.6 MA, B=6.64 T H-minority resonances at: 85.8 cm, 83.6 cm, 83.1 cm (if H-mode is triggered by RF in any one of these, try central heating for comparison and then lower RF to find threshold) 3) shots #7-8: repeat (1) at I=0.3 MA instead of 0.6 MA 4) shots #9-10: repeat (2) at I=0.3 MA instead of 0.6 MA 5) shots #11-12: vary RF phasing in one of these conditions 6) shots #13-14: try He4(H) in one of these conditions | |
| Feb 20 2004 09:17:55:573AM | 1040220001 | Joseph Snipes | Shot 1: Loaded shot 1040123013 and changed the prepuff to 17 ms duration. This shot uses segment 4 with SSEP control. Good shot. RF constant at 1.2 MW remains in L-mode. |
| Feb 20 2004 09:26:19:727AM | 1040220001 | Joseph Snipes | Shot 2: Lowered SSEP by 1.5 mm. It has a ramp from -5 mm to -6.5 mm throughout the flattop, which then keeps it constant at about -0.27 cm in EFIT. Data systems test only. No plasma. |
| Feb 20 2004 09:47:25:777AM | 1040220003 | Joseph Snipes | Shot 3: Try again with another no power test shot. |
| Feb 20 2004 09:53:07:550AM | 1040220004 | Joseph Snipes | Shot 4: Try again with plasma. Good shot. Remains in L-mode with 1.2 MW of RF. |
| Feb 20 2004 10:09:16:683AM | 1040220005 | Joseph Snipes | Shot 5: Lowered SSEP by another 2 mm. Reduced nl04 to 7 x 10^19 m^-2. Good shot. Still no H-mode with 1.2 MW of RF. |
| Feb 20 2004 10:32:47:750AM | 1040220006 | Joseph Snipes | Shot 6: Repeat with more RF power. Good shot. Just got an H-mode at 1.45 s with 1.7 MW of RF. |
| Feb 20 2004 10:37:54:570AM | 1040220007 | Joseph Snipes | Shot 7: Decreased SSEP by another mm to a ramp from -7.5 mm to -8.5 mm. Also increased preprogrammed gas puff in segment 1 to 100 V at 0.044 and 0.098 s. Fizzle! |
| Feb 20 2004 10:48:12:273AM | 1040220008 | Joseph Snipes | Shot 8: Added another time point at 0.031 s for the gas puff in segment 1 to keep the gas lower during the startup. Try again. Good shot. H-mode at 1.35 s. |
| Feb 20 2004 11:02:01:403AM | 1040220009 | Joseph Snipes | Shot 9: Copied SSEP from shot 1 to return to near double null. Removed two time points around 0.5 s in RXL due to fears that there was some plasma interaction at that time. It is at the time of OH1 crossover, which lasts from 0.45 to 0.51 s on shot 8 where the plasma is not well controlled. Good shot with a series of weak H-modes. |
| Feb 20 2004 11:15:33:143AM | 1040220010 | Joseph Snipes | Shot 10: Fizzle! |
| Feb 20 2004 11:29:00:120AM | 1040220011 | Joseph Snipes | Shot 11: Decreased EF4 current to -1342 A and decreased prepuff by 1 ms to 16 ms duration. Good shot with several H-modes. |
| Feb 20 2004 11:45:52:190AM | 1040220012 | Joseph Snipes | Shot 12: Reduced Br0 by 0.2 mT to 0.3 mT. Good shot. RF down to 1 MW remained in L-mode though with some signs of dithering. |
| Feb 20 2004 11:59:09:430AM | 1040220013 | Joseph Snipes | Shot 13: Increased SSEP by 2 mm to ramp from -1 mm to -2 mm. Fizzle! |
| Feb 20 2004 12:19:47:417PM | 1040220014 | Joseph Snipes | Shot 14: Reduced EF4 current a tiny bit to -1345 A. Increased SSEP by yet another 2 mm to ramp from +3 mm to 2 mm. Good shot. Remained in L-mode with 1.8 MW of RF. |
| Feb 20 2004 12:59:13:820PM | 1040220015 | Joseph Snipes | Shot 15: Reduced SSEP by 2 mm ramping from 1 mm to 0 mm. Data system failure with a long delay. Finally a no power shot. |
| Feb 20 2004 01:08:47:007PM | 1040220015 | Joseph Snipes | Shot 16: No power test shot. Data system failure. |
| Feb 20 2004 01:16:00:237PM | 1040220017 | Joseph Snipes | Shot 17: Fizzle! Very high neutral pressure at breakdown for some reason. |
| Feb 20 2004 01:28:34:473PM | 1040220018 | Joseph Snipes | Shot 18: Repeat. Good shot with several H-modes. |
| Feb 20 2004 01:40:36:633PM | 1040220019 | Joseph Snipes | Shot 19: Repeat with lower RF power. Fizzle! |
| Feb 20 2004 01:53:39:620PM | 1040220020 | Joseph Snipes | Shot 20: Lowered EF4 current by another 10 A to -1355 A. Also reduced prepuff by 1 ms to 15 ms duration. Good shot. H-mode starting at 1.26 s. |
| Feb 20 2004 02:17:00:143PM | 1040220021 | Joseph Snipes | Shot 21: Starting Zweben's MP. Copied shot 1030604023. Then, loaded segment 1 from shot 1040220020 to keep the beautiful startup. Then, dropped the gas puff in segment 1 for the two points at 0.044 and 0.098 s back to 40 V. Good shot. RF up to 5.5 MW with no clear H-modes. |
| Feb 20 2004 02:34:50:513PM | 1040220022 | Joseph Snipes | Shot 22: Repeat. Good shot though it disrupted at 1.46 s. No clear H-modes. |
| Feb 20 2004 02:47:24:907PM | 1040220023 | Joseph Snipes | Shot 23: Repeat. Good shot. |
| Feb 20 2004 02:51:50:057PM | 1040220024 | Joseph Snipes | Shot 24: Repeat. Good shot. Disrupted at 1.42 s. |
| Feb 20 2004 03:04:30:607PM | 1040220025 | Joseph Snipes | Shot 25: Reduced TF current from 103 kA to 101 kA in segment 2. Good shot. Disrupted at 1.35 s. |
| Feb 20 2004 03:21:43:880PM | 1040220026 | Joseph Snipes | Shot 26: Returned to 103 kA on the TF and dropped the current after 0.5 s to 0.4 MA. Good shot. |
| Feb 20 2004 03:55:39:460PM | 1040220027 | Joseph Snipes | Shot 27: Repeat to attempt to tune the RF better. Two no power shots due to computer system problems again. |
| Feb 20 2004 04:09:57:670PM | 1040220028 | Joseph Snipes | Shot 28: Try again. Finally got another plasma shot. Good shot. |
| Feb 20 2004 04:23:46:033PM | 1040220029 | Joseph Snipes | Shot 29: Changing the main gas from C-side from deuterium to helium to go to helium plasmas, though we will continue to breakdown with a short deuterium gas puff. Reloaded shot 23. Raised Br0 to 0.5 mT. Disrupted at 0.95 s. |
| Feb 20 2004 04:37:01:850PM | 1040220030 | Joseph Snipes | Shot 30: Turned off preprogrammed gas puff in segment 2. Better shot without a MARFE. Still disrupts at 1.43 s. |
| Feb 20 2004 04:50:58:263PM | 1040220031 | Joseph Snipes | Shot 31: Lowered nl04 to 4 x 10^19 m^-2. Fizzle! |
| Feb 20 2004 05:02:20:330PM | 1040220032 | Joseph Snipes | Shot 32: Increased EF4 current to -1350 A and decreased Br0 to 0.3 mT. Reduced Ip to 0.4 MA after 0.5 s. Disrupted at 0.25 s. |
| Feb 20 2004 05:18:09:667PM | 1040220032 | Joseph Snipes | Summary: The run was plagued with computer data system failures where 5 official shots were lost and several hours. In addition, there were six fizzles often for unclear reasons. On shot 17, the neutral pressure at breakdown was three times what it should have been despite the same programming as other shots and so it fizzled. It also seems that Bz changed during the day and a more negative Bz helped toward the end, but then another fizzle occured on the next to last shot as well. Nonetheless, some good data was obtained for both miniproposals. See the session leader's run summaries for details. Shot,Duration(s),Ipmax(MA) Shot,Duration(s),Ipmax 1 1.918 0.795 2 No Ip 3 0.000 0.002 4 1.908 0.799 5 1.925 0.799 6 1.953 0.804 7 0.000 0.036 8 1.968 0.805 9 1.956 0.811 10 0.000 0.047 11 1.960 0.807 12 1.960 0.799 13 0.000 0.052 14 1.924 0.801 15 No data 16 No data 17 0.000 0.028 18 1.953 0.806 19 0.000 0.041 20 1.949 0.805 21 1.941 0.675 22 1.461 0.674 23 1.954 0.644 24 1.436 0.658 25 1.357 0.695 26 1.952 0.698 27 0.000 0.002 28 1.947 0.659 29 0.962 0.667 30 1.437 0.693 31 0.000 0.045 32 0.260 0.644 Finished summary for 1040220 Total of 32 shots. 32 shots. 21 plasmas. 6 fizzles. 5 test shots |
| Engineering Operator Comments | ||||
| Shot | Time | Type | Status | Comment |
| 1 | 09:06:35:417AM | Plasma | Ok | |
| 3 | 09:39:20:653AM | Test | Ok | Data sytem test |
| 4 | 09:47:34:243AM | Plasma | Ok | |
| 5 | 10:04:08:050AM | Plasma | Ok | |
| 6 | 10:19:03:200AM | Plasma | Ok | |
| 7 | 10:32:36:563AM | Plasma | Ok | |
| 8 | 10:45:33:473AM | Plasma | Ok | |
| 9 | 10:59:29:290AM | Plasma | Ok | |
| 10 | 11:13:23:360AM | Plasma | Ok | |
| 11 | 11:26:46:240AM | Plasma | Ok | |
| 12 | 11:40:44:090AM | Plasma | Ok | |
| 13 | 11:57:06:723AM | Plasma | Ok | |
| 14 | 12:09:34:633PM | Plasma | Ok | |
| 15 | 12:25:13:020PM | Plasma | Ok | |
| 17 | 01:12:24:357PM | Plasma | Ok | |
| 18 | 01:25:18:517PM | Plasma | Ok | |
| 19 | 01:38:11:300PM | Plasma | Ok | |
| 20 | 01:50:52:867PM | Plasma | Ok | |
| 21 | 02:09:29:660PM | Plasma | Ok | |
| 22 | 02:22:30:480PM | Plasma | Ok | |
| 23 | 02:36:55:017PM | Plasma | Ok | |
| 24 | 02:49:30:583PM | Plasma | Ok | |
| 25 | 03:02:02:790PM | Plasma | Ok | |
| 26 | 03:14:48:997PM | Plasma | Ok | |
| 27 | 03:49:03:460PM | Test | Ok | No power shot, no IGOR |
| 28 | 04:07:18:950PM | Plasma | Ok | |
| 29 | 04:19:55:127PM | Plasma | Ok | |
| 30 | 04:33:06:553PM | Plasma | Ok | |
| 31 | 04:46:30:560PM | Plasma | Ok | |
| 32 | 04:58:57:127PM | Plasma | Ok | |