| Status |
ExpNbr |
Date |
Author |
Type |
Category |
Target-Source |
Subject |
| Fixed | e755 |
Mon Jul 2 18:51:11 2018 |
Pierre | RUN | General | Cryo-LH2 | Run 232 |
start: 18h49
stop: 20h41
Intensity about 30000 pps. |
| Attachment 1: scaler_2018-07-02_18h50m24s.png
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| Attachment 2: visu_2018-07-02_19h13m50s.png
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| Attachment 3: visu_2018-07-02_19h14m38s.png
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| Attachment 4: visu_2018-07-02_19h14m41s.png
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| Attachment 5: scaler_2018-07-02_19h13m47s.png
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| Attachment 6: visu_2018-07-02_20h25m33s.png
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| Attachment 7: visu_2018-07-02_20h25m38s.png
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| Attachment 8: visu_2018-07-02_20h25m42s.png
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| Attachment 9: visu_2018-07-02_20h25m47s.png
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| Attachment 10: visu_2018-07-02_20h25m53s.png
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| Attachment 11: visu_2018-07-02_20h25m58s.png
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| Attachment 12: visu_2018-07-02_20h26m02s.png
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| Attachment 13: visu_2018-07-02_20h26m08s.png
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| Attachment 14: visu_2018-07-02_20h26m13s.png
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| Attachment 15: visu_2018-07-02_20h26m18s.png
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| Attachment 16: visu_2018-07-02_20h26m22s.png
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| Attachment 17: visu_2018-07-02_20h26m27s.png
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| Attachment 18: visu_2018-07-02_20h26m32s.png
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| Attachment 19: visu_2018-07-02_20h26m37s.png
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| Attachment 20: visu_2018-07-02_20h26m42s.png
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| Attachment 21: visu_2018-07-02_20h26m47s.png
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| Attachment 22: visu_2018-07-02_20h26m57s.png
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| Attachment 23: visu_2018-07-02_20h27m01s.png
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| Attachment 24: visu_2018-07-02_20h27m08s.png
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| Attachment 25: visu_2018-07-02_20h27m15s.png
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| Attachment 26: visu_2018-07-02_20h27m21s.png
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| Attachment 27: visu_2018-07-02_20h27m28s.png
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| Attachment 28: visu_2018-07-02_20h27m21s.png
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| Attachment 29: visu_2018-07-02_20h27m28s.png
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| Attachment 30: visu_2018-07-02_20h43m42s.png
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| Attachment 31: scaler_2018-07-02_20h43m31s.png
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| Fixed | e738 |
Sun Jul 8 01:24:16 2018 |
Pierre | RUN | General | Cryo-LH2 | Run 284 |
start: 1h15
stop: 3h11
beam: 10C at about 90000 pps |
| Attachment 1: scaler_2018-07-08_01h25m36s.png
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| Attachment 2: visu_2018-07-08_01h26m12s.png
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| Attachment 3: scaler_2018-07-08_03h10m42s.png
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| Fixed | e738 |
Sun Jul 8 03:13:35 2018 |
Pierre | RUN | General | Cryo-LH2 | Run 285 |
start: 03h12
stop: 05h10
Beam about 1*10^5 pps |
| Attachment 1: scaler_2018-07-08_03h13m06s.png
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| Attachment 2: visu_2018-07-08_03h19m50s.png
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| Attachment 3: visu_2018-07-08_03h19m13s.png
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| Attachment 4: visu_2018-07-08_03h19m27s.png
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| Attachment 5: visu_2018-07-08_03h20m19s.png
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| Fixed | e738 |
Sun Jul 8 05:09:11 2018 |
Pierre | RUN | General | Cryo-LH2 | Run 286 |
start: 05h11
stop: 07h00 |
| Attachment 1: scaler_2018-07-08_05h11m32s.png
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| Attachment 2: visu_2018-07-08_05h18m15s.png
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| Attachment 3: visu_2018-07-08_05h18m21s.png
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| Attachment 4: visu_2018-07-08_05h18m25s.png
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| Attachment 5: visu_2018-07-08_05h19m10s.png
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| Attachment 6: visu_2018-07-08_05h15m24s.png
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| Attachment 7: visu_2018-07-08_05h18m08s.png
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| Attachment 8: visu_2018-07-08_05h18m53s.png
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| Attachment 9: visu_2018-07-08_05h19m01s.png
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| Attachment 10: visu_2018-07-08_05h15m14s.png
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| Attachment 11: visu_2018-07-08_05h15m19s.png
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| Attachment 12: visu_2018-07-08_05h18m39s.png
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| Attachment 13: visu_2018-07-08_05h18m46s.png
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| Fixed | e738 |
Sun Jul 8 07:00:46 2018 |
Pierre | RUN | General | Cryo-LH2 | Run 287 |
start: 07h01
stop: 08h55 |
| Attachment 1: scaler_2018-07-08_07h01m51s.png
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| Attachment 2: visu_2018-07-08_07h06m42s.png
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| Attachment 3: visu_2018-07-08_07h06m49s.png
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| Attachment 4: visu_2018-07-08_07h07m03s.png
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| Attachment 5: visu_2018-07-08_07h07m43s.png
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| Attachment 6: visu_2018-07-08_07h07m49s.png
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| Attachment 7: visu_2018-07-08_07h07m54s.png
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| Attachment 8: visu_2018-07-08_07h08m00s.png
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| Fixed | e738 |
Mon Jul 9 07:55:05 2018 |
Pierre | RUN | General | Cryo-LH2 | Run 302 |
start: 07h53
stop: 08h19
We stop the run to warm up the target |
| Attachment 1: scaler_2018-07-09_07h57m43s.png
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| Attachment 2: visu_2018-07-09_07h59m57s.png
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| Attachment 3: visu_2018-07-09_08h00m04s.png
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| Attachment 4: visu_2018-07-09_08h04m11s.png
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| Fixed | e738 |
Fri Jul 13 00:45:45 2018 |
Pierre | RUN | General | Cryo-LH2 | Run 367 |
| start: 00h44 |
| Fixed | e738 |
Fri Jul 13 00:47:23 2018 |
Pierre | RUN | General | Cryo-LH2 | Run 367 |
RUN 367
start: 00h44
stop: 02h44
CATS1: 670 V & 0.10 uA
CATS2: 650 V & 0.08 uA |
| Attachment 1: scaler_2018-07-13_00h46m09s.png
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| Attachment 2: visu_2018-07-13_00h51m01s.png
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| Attachment 3: visu_2018-07-13_00h50m40s.png
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| Fixed | e738 |
Fri Jul 13 02:45:44 2018 |
Pierre | RUN | General | Cryo-LH2 | Run 368 |
RUN 368
start: 02h44
stop: 04h46
CATS1: 670V & 0.14 uA
CATS2: 650V & 0.10 uA |
| Attachment 1: scaler_2018-07-13_02h46m47s.png
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| Attachment 2: visu_2018-07-13_02h55m51s.png
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| Attachment 3: visu_2018-07-13_02h55m57s.png
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| Attachment 4: visu_2018-07-13_02h58m46s.png
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| Attachment 5: visu_2018-07-13_02h58m54s.png
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| Attachment 6: visu_2018-07-13_02h58m59s.png
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| Attachment 7: visu_2018-07-13_02h59m03s.png
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| Fixed | e738 |
Fri Jul 13 04:48:19 2018 |
Pierre | RUN | General | Cryo-LH2 | Run 369 |
RUN 369
start: 04h47
stop:06h41
CATS1: 670V & 0.10 uA
CATS2: 650V & 0.08 uA
The run is stopped due to some issues from the cyclotron (some tripping).
Could take up to 2 hours to have the beam back. |
| Attachment 1: scaler_2018-07-13_04h49m37s.png
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| Attachment 2: visu_2018-07-13_05h04m56s.png
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| Attachment 3: visu_2018-07-13_05h04m52s.png
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| Attachment 4: visu_2018-07-13_05h04m48s.png
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| Attachment 5: visu_2018-07-13_05h04m39s.png
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| Attachment 6: visu_2018-07-13_05h04m35s.png
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| Attachment 7: visu_2018-07-13_05h04m32s.png
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| Ongoing | e744 |
Tue May 29 01:25:07 2018 |
Phil, Valerian, Franck | EXL-PPT | General | N/A | LaBr3 Background for reference |
For reference, we include a picture of the LaBr3 background found by some random Google searching until we found a nice happy looking picture.
Remember (I'd forgotten despite having literally had this conversation with someone in the past) that the LaBr3 internal background lies at exactly the same energy as the 40K room background (which is why LaBr3 isn't good for environmental monitoring, innit) so you don't know whether the peak there is from the internal activity or the 40K from the energy (however, on the basis of how much activity of each is around it's from the internal activity). |
| Attachment 1: Response-of-3-3-CeBr-3-and-LaBr-3-Ce-to-natural-background-radiation-Events-due-to.jpg.png
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| Ongoing | e744 |
Tue May 29 01:33:58 2018 |
Phil, Valerian, Franck | EXL-PPT | General | | Gamma-ray spectra from PPT |
Attached are plots of gamma-ray energy spectra from PPT.
2-D plot is the PPT-CATS time (from PPT-MUST2 and MUST2-CATS time, obviously).
Two 1-D plots are PPT energy spectra gated on the two loci which can be seen in the 2-D plot.
Note that the 1.6-ish MeV line which may ordinarily expect to be due to the internal background from LaBr3 appears strongly in the prompt spectra and isn't really randomly time-correlated. We are suspicious, however, that the resolution is too good and that the peaks may be an artefact. We are checking this and will update this post accordingly. |
| Attachment 1: PPTSpectrum2D.png
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| Attachment 2: PPTSpectrumPromptPeak1.png
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| Attachment 3: PPTSpectrumPromptPeak2.png
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| Fixed | e744 |
Wed May 30 13:25:57 2018 |
Phil, Freddy | RUN | General | CH2 | Run 2020 - target number 4 |
Run 2020
Start: 13h24m
Stop: 13h41
Beam 14O at: 1.2*10^5 pps
target n°4. CH2 104 µm
All triggers, (no LISE)
Divisions (Unchanged) CATS1 3. 10**4. PPT 3000 ; EXL 10**4
Comments:
Pulser frequency is still at 48 Hz, i.e. lower than expected - expect 100ish Hz. Freddy is investigating.
!!! Beam intensity is dropping a lot so run stopped at 13h41. !!! |
| Attachment 1: Scalers_start_run2020.png
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| Attachment 2: Run2020_leakages_13h35.png
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| Ongoing | e744 |
Wed May 30 13:48:02 2018 |
Phil | DAQ | General | N/A | Pulser values |
Here's a list of pulser values taken from the last few runs as a reference for what rate the "100-Hz" pulser is actually seeing.
All rates in Hz.
29 May:
6h52 62
9h36 96
9.39 96
10.35 50
30 May
12.15 76
12.16 84
3.01 48
3.21 96
3.27 48
4.57 48
7.15 48
8.39 48
9.26 48
9.33 66
11.35 48
1.29 48
Rate was 48 Hz when the run was stopped due to loss of beam (I looked but didn't take a picture).
I don't know if this problem is caused by the scaler counting behaving oddly but that seems like a more obvious solution than the pulser frequency randomly changing. If the pulser is actually vital for the experiment, someone should look in the offline data to see what's happening. |
| Fixed | e738 |
Fri Jul 13 09:35:26 2018 |
Olivier, Serge, Jacques, J-C, thomas, shumpei, daisuke | RUN | General | Cryo-empty | RUN 370 |
Empty target + 9C.
9h29 The beam is back. start 9h28 stop 11h21
e748 Exxx 2,1G 13 juil. 11:21 /data/e748X/e755/acquisition/run/run_0370.dat.13-07-18_09h28m21s |
| Attachment 1: visu_2018-07-13_09h36m18s.png
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| Attachment 2: scaler_2018-07-13_09h36m16s.png
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| Ongoing | e755 |
Sat Jun 23 19:10:23 2018 |
Nori | OFFLINE | General | Cryo-LH2 | |
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| Fixed | e755 |
Sat Jun 23 19:23:19 2018 |
Nori | OFFLINE | General | Cryo-LH2 | 40Ca(p,d) analysis |
Analysis of run0072 (two hours accumulation).
Attachment 1:
Reconstructed beam image. The ring should correspond to the cell's frame.
Attachment 2:
Definition of cuts. The central region of the target was selected and then named "targ".
Attachment 3:
Particle identification. Deuterons are well separated.
Attachment 4:
Elab-theta plot. The target and deuteron cuts were applied. Kinematics curves of the (p,d) reactions are seen.
Attachment 5:
Elab-theta again. Calculated kinematics curves were superimposed.
An energy correction factor of 0.8 has to be introduced to reproduce the curves (probably due to the incomplete energy calibration).
In addition to the ground-state transition, excited states with spectroscopic factors larger than 0.4 are also shown. See PRC 48, 95 (1993) for the details.
Attachment 6:
Angular distribution of 40Ca(d,p)39Ca(1/2+) from the reference. A similar oscillating pattern was observed in the Elab-theta plot.
EDIT: the deviation from the kinematics was due to an incorrect beam energy. |
| Attachment 1: run72_targ_log.png
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| Attachment 2: run72_targ_cuts.png
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| Attachment 3: run72_pid.png
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| Attachment 4: run72_etheta_dtarg.png
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| Attachment 5: run72_etheta_dtarg_kinema_adj.png
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| Attachment 6: Screen_Shot_2018-06-23_at_14.08.37.png
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| Attachment 7: Screen_Shot_2018-06-23_at_14.08.54.png
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| Fixed | e755 |
Sat Jun 23 20:07:49 2018 |
Nori | OFFLINE | General | Cryo-LH2 | 40Ca(p,d) analysis |
Order-of-magnitude estimate of the target thickness.
We have about 5000 counts of 40Ca(p,d)39Ca(g.s.) in an angular range of 10-30 degrees.
The total beam flux is calculated as follows.
2 hours x 1.5 x 10^5 pps = 1 x 10^9 particles
About half is on target -> 5 x 10^8 particles
By assuming the 5-mb cross section (integrated with respect to the cm angle),
and ignoring the Jacobian and the detector coverage, we get
thickness = 5000 counts / (5 mb x 5 x 10^8 particles) = 2 x 10^21 cm^-2
c.f. 1-mm thick solid hydrogen 4 x 10^21 cm^-2 |
| Fixed | e755 |
Mon Jun 25 17:28:03 2018 |
Nori | TARGET | Hardware | Cryo-LH2 | Liquid hydrogen target logger |
There was a sudden increase of the temperature at 4pm. Fortunately the cell is still filled with liquid. |
| Attachment 1: screenshot_2018-06-25_17.20.41.png
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| Attachment 2: screenshot_2018-06-25_20.56.47.png
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| Fixed | e755 |
Mon Jun 25 23:17:56 2018 |
Nori | MUST2 | General | Cryo-LH2 | DSSD multiplicity |
Data analysis of run0128 (38Ca physics run). The multiplicity distribution of DSSD x-strips is shown in
Attachment 1. The second peak centered at around 128, which is the number of strips of one detector, corresponds
to events where beam-like heavy ions are hitting the detector.
This causes a huge energy deposit in the detector and eventually induces the mirror charge to be shared among
many strips. The number of these events amounts to about 6% of the total (note that only 100000 events were used
for the analysis). A typical charge distribution of such an event is shown in Attachment 2.
We may need to adjust negative thresholds to suppress them.
EDIT : The same behaviour can be seen on Y strips (see attachment) |
| Attachment 1: run0128_simult.png
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| Attachment 2: run0128_allstripsfired.png
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| Attachment 3: All_strip_fired.png
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