Shift summary, posted by Natalia Gerasimova on 08 Jun 2024, 15:21
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Morning shift on 08.06.2024 (Natalia, Teguh, Yi Ping)
Achievements:
- Focus the KB to ca. 40 um
- Found time zero using delay scan of the RIXS PFY
- Found strong pump probe effect on the Fe reference sample
Problems:
- We lost pump probe signal during time zero scan
- The static RIXS count is halved
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Shift summary, posted by Chan Kim on 07 Jun 2024, 23:12
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X-ray delivery
- 7.0 keV, up to 202 pulses at 564 kHz, 1.0 mJ.
- Average pulse energy was about 1.9 mJ on Tuesday and Wednesday. It has to be discussed with BKR tomorrow morning.
Optical laser delivery
- ns laser for jet illumination
Achievements/Observations
- BG measurement with water, buffer low salt
- Lysozyme measurement for geometry file
- Data collection for six different sample concentrations [2 x 15 minutes runs]
Issues
- Pulse energy is very low as compared with Tuesday and Wednesday in this week.
- Damage found on IRU_SLIT4 Top and Bottom blades.
- NKB focus moved by ~20um at around 15:00 (during the handover period). SideMic X moved +20um to compensate it. |
Shift summary, posted by Giuseppe Mercurio on 07 Jun 2024, 15:19
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Morning Shift Summary for 07.06.2024 (Teguh, Natalia)
Achievements:
- Aligned the beamline to deliver the FEL beam into the hutch
- Check the FEL beam size using knife-edge scans
- Requested BKR to re-tune the FEL to achieve higher pulse energy. They are still tuning, but we aim to reach 3 mJ per pulse
Problems:
- The filter between CHEM and hRIXS broke, so we had to replace it twice as it kept being broken whenever we close the filter. We fixed it by exchanging the O-ring and tightening the filter more when mounting it.
- In the morning BKR did not tune the FEL properly, so the pointing was wrong and it took them 1 hour to fix it.
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Shift summary, posted by Romain Letrun on 05 Jun 2024, 23:22
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X-ray delivery
- 7.0 keV, up to 202 pulses at 564 kHz, 1.6-1.9 mJ.
- Average pulse energy tuned up to 1.9 mJ at 14:45, but slow continuous decay after that down to 1.7 mJ at the end of the shift.
- 45 minutes downtime in the morning and another 15 minutes to reset the IBFB later on, as coordinated by the PRC.
Optical laser delivery
- 800 nm, up to 202 pulses at 564 kHz.
- Large intensirty gradient through the burst compared to previous days. Recovered after moving the RF phase shifter. LAS informed.
Achievements/Observations
- Collected calibration and background data for upcoming user experiment.
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Shift summary, posted by Romain Letrun on 04 Jun 2024, 23:38
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X-ray delivery
- 7.0 keV, up to 202 pulses at 564 kHz, ~1.7 mJ.
- Number of pulses initially limited to 178. Promptly addressed by BKR.
Optical laser delivery
- 800 nm, up to 202 pulses at 564 kHz.
- Oscillating wavelength due to known faulty DMBCC stage, but otherwise stable delivery.
Achievements/Observations
- Aligned instrument and collected data with test samples as well as various background signals in preparation for next suer experiment.
Issues
- Changing the ROI of a Zyla appears to affect its timing.
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Shift summary, posted by Romain Letrun on 27 May 2024, 23:33
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X-ray delivery
- 6.0 keV, up to 202 pulses at 564 kHz 1.3-1.8 mJ.
- Decaying intensity through the day. Recovered once at 15:15 and slowly decaying again after that.
Optical laser delivery
- 770 nm, up to 202 pulses at 564 kHz and 101 at 282 kHz.
- Wavelength drift due to problem with BCC piezo stage. Mitigated by LAS.
Achievements/Observations
- Collected time-resolved diffraction from gold and gold-platinum nanorods/spheres at multiple laser fluences.
Issues
- Problem with the four ASICs in module Q2M1 of AGIPD could not be solved. Operated without those for today. Will be further investigated later on.
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Shift summary, posted by Konopkova Zuzana on 27 May 2024, 06:41
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beam parameters: 2 colors at around 6.5 keV, 1 pulse
achievements:
user program continues with data acquisition at slightly varying photon energies (tens of eV both colors simultaneously) and at different delays between the colors
Issues:
- users have scheduled datasets to be measured overnight with larger delays up to 350 fs, however, the BKR was able to go only up to 100 fs delay despite having larger delays earlier in the experiment (even during nights)
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Shift summary, posted by Romain Letrun on 26 May 2024, 23:23
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X-ray delivery
- 6.0 keV, up to 202 pulses at 564 kHz, 1.8-1.9 mJ.
- Stable delivery except for downtime at start of shift (until 7:15) and two more hours in the morning.
Optical laser delivery
- 770 nm, up to 202 pulses at 564 kHz.
- Stable delivery.
Achievements/Observations
- Collected time-resolved diffraction from gold and gold-platinum nanorods at multiple laser fluences.
Issues
- Vacuum spike in EHU_PSLIT section.
- DAMNIT backend process stuck. A couple of Maxwell nodes were unaccessible. Solved by DOC and DA OCD.
- Issue with two AGIPD modules noticed around 21:20. Could not be recovered before end of the shift. To be further investigated tomorrow morning.
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Stability Issue, posted by Thomas Baumann on 26 May 2024, 21:56
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We asked the machine for two color mode in the morning. Tuning gave good results at first (1.6mJ second color, 100uJ first color), but as soon as any of the colors was switched off and on again the pulse energy dropped (~600uJ) and BKR had to retune to even get a fraction of the pulse energy back back. The same happened when changing the delay
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Shift summary, posted by Romain Letrun on 26 May 2024, 00:23
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X-ray delivery
- 6.0 keV, up to 202 pulses at 564 kHz and 101 at 282 kHz, 0.8-1.6 mJ
- Low pulse energy after beam handover. Improved around 10:00.
- ~1.5 hour downtime due to issue with A5.
- Several timing jumps of up to 1.5 ps visible on BAM and confirmed by X-ray/optical laser timing measurement at the instrument.
Optical laser delivery
- 770 nm, up to 202 pulses at 564 kHz and 101 at 282 kHz.
- Stable delivery.
Achievements/Observations.
- Collected time-resolved diffraction from gold and gold-platinum nanorods at multiple laser fluences and over long and short delay scans.
Issues
- AGIPD interlocked overnight and again during the morning due to temperature.
- Had to perform timing measurement and correction multiple times throughout the day due to timing jumps.
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Issue, posted by Rebecca Boll on 25 May 2024, 02:38
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Today in the afternoon, SASE1 was tuned (a description of the activities in att 4). We now realize that this has in some form changed the SQS pulse parameters.
att 1 shows ion spectra recorded under nominally the same photon parameters before (run 177) and after (run 247)
it's also visible in the history of the SASE viewer that the behavior of the SASE3 pulse energy is different before and after 15:45, which is right when SASE1 was tuned. it clearly started fluctuating more. however, we don't think that the pulse energy fluctuations themselves are the reason for the large change in our data, we rather suspect a change in the pulse duration and/or the source point to cause this. however, we have no means to characterize this now after the fact.
it is particularly unfortunate that the tuning happened exactly BEFORE we started recording a set of reference spectra on the SASE3 spectrometer, which were supposed to serve as a calibration for the spectral corelation analysis to determine the group duration, as well as for a training data set to use the PES with machine learning as a virtual spectrometer for the large data set taken in the shifts before. |
HED 6keV after Euler MDL, posted by Antje Trapp on 19 May 2024, 15:20
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M1 - M2 - M3 euler fine tuning geometriy parameters, posted by Antje Trapp on 19 May 2024, 14:49
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We fine tuned geometry parameters for linear effects on X motion (parallel offset) for all three mirrors.
dTz was corrected for M2 and M3 to -6.5mm (same geometry)
dTz was corrected for M1 to +6mm
for M2 we were able to do a parabola scan Y motion to check for lrTz
lrTz was then corrected to -433mm
correction in the same direction for M3 did not yield better results
Final mirror positions at HED - see picture |
Status, posted by Dirk Raiser on 17 May 2024, 10:42
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Laser status:
After the laser issues listed in https://in.xfel.eu/elog/OPERATION-2024/99 the late shift was finally able to find a timing setting for the amplifier trigger that was beyond stable settings under usual conditions, but which allowed to continue taking data runs for the rest of the beamtime reliably. The users were already able to reveal indications of a pump-probe signal in their data.
The issue itself remains but didn't show up in form of unstabilities anymore. After the beamtime LAS took some effort to investigate and narrow down to either a faulty trigger going into the front-end amplifier or on the front-end amplifier itself. To the best of our knowledge this circumstance will need to involve EEE support or even a service from the manufacturer and cannot be solved solely by LAS. LAS ensured that the highest priority will be to deliver stable laser pulses for next week's beamtime as well.
FEL status:
we found the FEL poynting to be very stable troughout the last weeks beamtime (despite some short down-times), which allowed to reliably verify the spatial overlap. |
Shift summary, posted by Romain Letrun on 14 May 2024, 11:49
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X-ray delivery
- 11.56 keV, 1-197 pulses @ 564 kHz, 2.6 mJ.
Optical laser delivery
- No PP laser output after shift change.
Achievements/Observations
- Collected static SFX data.
Issues
- Unavailability of PP laser prevented collection of TR-SFX data, which was the main goal of the shift.
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Issue, posted by Andreas Koch on 14 May 2024, 09:56
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EPS issue for Transmissive imager SA1 (OTRC.2615.T9) w.r.t Operation eLog #96
The motor screen positions w.r.t. the EPS switches had been realigned (last Wednesday 8th May), tested today (14th May) and the EPS is again enabled for the different beam modes. All is back to normal. |
Shift summary, posted by Romain Letrun on 13 May 2024, 10:36
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X-ray delivery
- 11.56 keV, 1-197 pulses @ 564 kHz, 2.4-3.1 mJ.
- Beam down a bit over 1 hour due to accelerator interlock problem.
Optical laser delivery
- 840 nm, 50 fs, 50 pulses @ 141 kHz.
- Stable delivery.
Achievements/Observations
- PP laser timed.
- Completed TR-SFX dataset at 30 ps delay.
Issues
- Scantool stuck in ACQUIRING state. Recovered by restarting the device.
- HIREX data missing for most of the night. GOTTHARD II control and receiver devices found down in the morning. Server on which they are reunning appears to have crashed at 1:36. DOC informed in the morning.
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Shift summary, posted by Ulrike Boesenberg on 13 May 2024, 08:48
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Weekend summary:
Overall stable beam delivery with 300bunches @18keV and 750uJ
-issue with XGM on Saturday night/morning
-The intensity in SA2 over the train is dropping of when SA3 is changing some parameters. BKR can fix it within a couple of minutes
-The users found suitable working conditions to overcome the limitations from the 10bar He supply line. |
Shift summary, posted by Romain Letrun on 12 May 2024, 07:35
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X-ray delivery
- 11.56 keV, 1-352 pulses @ 1.13 MHz, 2.4-3.1 mJ. Stable delivery.
- Intensity gradient with long train now slightly less than 20%.
Optical laser delivery
- 840 nm, 50 fs, 564 kHz.
- Stable delivery.
Achievements/Observations
Issues
- Challenges with sample delivery.
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Shift summary, posted by Romain Letrun on 11 May 2024, 07:20
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X-ray delivery
- 11.56 keV, 1-352 pulses @ 1.13 MHz, 2.4-3.1 mJ. Stable delivery.
- Intensity gradient with long train better than previous shifts (~20% drop).
Optical laser delivery
- 840 nm, 50 fs, 564 kHz.
- Stable delivery.
- Issue with Treacy compressor motion. Could be solved, but required intervention on site by LAS and EEE OCD.
Achievements/Observations
- Calibration of HIREX GOTTHARD II data working after intervention of DOC/DRC.
- Finished PP laser setup.
- PP laser timed.
- Collected SFX data sets using AGIPD in different gain modes.
Issues
- All AGIPD dark processing attempts failed with random missing modules showing up in the reports.
- We were not able to reach the DRC to discuss the above issue earlier during the shift on either 98089, 98088, or 01715330920. DOC informed at end of the shift.
- HIREX had been removed from the SASE1 DAQ, preventing the GOTTHARD II preview from running, and the DAQ was left into passive state after someone had used it during the day with the XTD9 Shimadzu camera.
- Problem with the Treacy compressor delayed the final PP laser preparation, which then had to be done during beam delivery.
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