Difference between revisions of "TCrB Instructions"

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(Created page with "<big><big><big><big><big>https://www.mpp.mpg.de/~damgreen/ It's Happening </big></big></big></big></big> = PI & COIs = '''Gamma-ray: <br>''' PI: David Green (+49 151 5763...")
 
(From gamma-ray to SII observations)
 
(14 intermediate revisions by 2 users not shown)
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'''Important''': The '''automatic GRB procedure should be disabled''' when observing T CrB to prevent the automatic repointing to another eventual transient event.
 
'''Important''': The '''automatic GRB procedure should be disabled''' when observing T CrB to prevent the automatic repointing to another eventual transient event.
  
== Coordination with LST ==  
+
== Coordination with MAGIC ==  
  
T CrB observations should be done together with LST. For this purpose, the Shift Leader phone is in a Telegram group with the PIs and the LST Shift Leader phone. Use this group and the afforementioned Zoom room to coordinate the wobble positions with LST and communicate with the PIs.
+
T CrB observations should be done together with MAGIC. For this purpose, the Shift Leader phone is in a Telegram group with the PIs and the MAGIC Shift Leader phone. Use this group and the aforementioned Zoom room to coordinate the wobble positions with MAGIC and communicate with the PIs.
  
 
== Cadence of Observations ==
 
== Cadence of Observations ==
  
The cadence of observations '''for the first night''' will go as described below unless otherwise stated. Wobble positions should be coordinated with LST.
+
The cadence of observations '''for the first night''' will go as described below unless otherwise stated. Wobble positions should be coordinated with MAGIC.
  
 
*SII: First 40 minutes (ON mode) <br>
 
*SII: First 40 minutes (ON mode) <br>
Line 79: Line 79:
 
== Gamma-ray observations ==
 
== Gamma-ray observations ==
  
Gamma-ray observations are straightforward, since the source should already be included in the Current Period catalog of SuperArehucas. Observations should take place jointly with LST, so please be in contact with the LST shifters to ensure that the wobbles match and the observations begin at the same time.   
+
Gamma-ray observations are straightforward, since the source should already be included in the Current Period catalog of TCU. Observations should take place jointly with MAGIC, so please be in contact with the MAGIC shifters to ensure that the wobbles match and the observations begin at the same time.   
  
If the observations take place '''during or around full moon''', please use the latest '''reduced high voltage''' settings, and beware of the different calibration wheel settings (see section 4.6 of the DOM). Otherwise, standard HV settings are fine. For all observations, '''extragalactic DTs''' should be used if the NSB conditions allow it. If not, use moon DTs.
+
If we are lucky, we will observe the optical rise of the nova, which is expected to happen very quickly, at several magnitudes per hour. Be aware that T CrB will become very bright in the optical, with an expected peak V-band magnitude of ~ 2. This will cause pixels around the source go into reduced HV and may cause oscillations in the rates. If this is the case, continue observations normally and report in the ELOG any issues that you see.
 
 
If we are lucky, we will observe the optical rise of the nova, which is expected to happen very quickly, at several magnitudes per hour. Be aware that T CrB will become very bright in the optical, with an expected peak V-band magnitude of ~ 2. This will turn off pixels around the source and may cause oscillations in the rates. If this is the case, continue observations normally and report in the runbook any issues that you see.
 
  
 
== From gamma-ray to SII observations ==
 
== From gamma-ray to SII observations ==
  
Below are the detailed steps to follow in order to swap from gamma-ray to SII observations. A more in-depth description of the SII obervations can be found [[Interferometry procedure#Regular datataking procedure|'''here''']].
+
Below are the detailed steps to follow in order to swap from gamma-ray to SII observations. A more in-depth description of the SII observations can be found [[https://docs.google.com/document/d/12M1zxEQL8U5FN00BsJHydyCPXH9MHGgpV563B_gHYPI/edit?usp=sharing|'''here''']].
  
*Stop the gamma-ray DAQ.
+
# '''[eGUI]''': -> TCU tab -> In the AutoOpertator section click on "Disable GCN follow up"
*Disable IPRC.
+
# '''[eGUI]''': -> TCU tab -> In the SM section -> Configure: click on new source and a drop down menu will appear -> select T CrB, '''select ON mode'''. -> Click on "Star observing" and enter the observing time in seconds.
*Close the camera.
+
# Open a CIC terminal if not done already and send the following commands.
*If the CaliBox laser is firing, stop it (Calibration -> Stop calibration). You can check the laser state from the Calib1 and Calib2 sections of SuperArehucas.
+
# '''Check''' in CIC that camera state is READY.
*Load the interferometry HV settings from the SuperArehucas menu (Camera -> Set HVs; remember to load the tables before submitting).
+
# '''Check''' in CIC that shutter is closed.
*Track T CrB in ON mode.
+
# '''[CIC]''': -> '''cbox.set_laser_status off'''
*Open the TPoint lid.
+
# '''[CIC]''': -> '''clus.disable_hv'''
*If the SII GUI is not open:
+
# '''[CIC]''': -> '''set_hv_interferometry_80'''
**Click Alt+O in SuperArehucas and open /home/control/SA++/interferometry/interferometry_GUI.vi.
+
# '''[CIC]''': -> '''clus.enable_hv 1'''
**Start the VI with the arrow icon. Check that the communication LED is green. If not, follow this section to [[Interferometry_procedure#Trouble-shooting:_Restarting_communication_to_interferometry_computer|restart communication]].
+
# '''Check''' in [https://camera.lst1.iac.es/mon0 camera monitor 0] that only m133p4 and m134p4 pixels have HV on (it takes a few seconds to update, you might need to refresh the webpage).
*Adjust the AMCs through the interferometry GUI ('''Full mirror to 251'''). Check that the current in pixel 251 of both cameras is higher than the rest.
+
# '''[CIC]''': -> '''movetotpoint'''
*Start a correlation run by pressing the corresponding button. A blinking green/yellow box should appear at the right of the button, and the state next to the communication LED should be ''data run''.
+
# '''Wait''' until camera reaches TPOINT state in CIC.
 +
# '''[CIC]''': -> '''ecc.sis_move_xy 1110 1291'''
 +
# '''Wait''' 10s for the SIS to move.
 +
# '''[CIC]''': -> '''ecc.shutter_move 1'''
 +
# '''Check''' in [https://camera.lst1.iac.es/mon0 camera monitor 0] that DC is higher in m133p4 (signal pixel) than in m134p4 (background pixel).
 +
# Contact MAGIC shifters and tell them you are ready, they should have started the interferometry DAQ once MAGIC is ready.
  
 
== SII observations ==
 
== SII observations ==
  
The procedure explained above will start the data-taking of 5-min interferometry runs that will be saved into the interferometry computer. In order to check the acquired data, follow the next steps:
+
The SII DAQ is controlled from the MAGIC CH. Once started it will take a run every 5 min, MAGIC shifters will check the joint data.
 +
 
 +
During the observations monitor check that SM is tracking. If it stops tracking before the observation ends, '''do not change the camera state''' and track again T CrB in ON mode.
 +
 
 +
You can also check the DC and HV values from the [https://camera.lst1.iac.es/mon0 camera monitor 0].
 +
 
  
# Connect to the interferometry computer (password Adhara) and move to the ''Analysis'' folder:
+
'''Stop SII observations earlier only if MAGIC decides to stop (because of a very faint DC signal).'''
#: > ssh -X interfere@161.72.130.119
 
#: > cd Analysis
 
# Make sure some raw binary files are being generated(by typing ''ls -lrt'', for example). The script will generate a new .bin file every 5 minutes.
 
# Make a first analysis of the data once some files are present:
 
#: > reduce_binaries_6C *{TCrB}*.bin --show_plot -m --star_name "T CrB"
 
# Check that T CrB is detected by ...
 
  
 
== From SII to gamma-ray observations ==
 
== From SII to gamma-ray observations ==
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Below are the detailed steps to follow in order to swap from SII to gamma-ray observations.
 
Below are the detailed steps to follow in order to swap from SII to gamma-ray observations.
  
*Stop data-taking by pressing the STOP CORRELATION RUN button.
+
# If you are still tracking, stop tacking from SM.
*Focus the AMCs to the central pixel from the interferometry GUI ('''Full mirror to 0''').
+
# Using CIC terminal use the following commands:
*(Optional) Close the GUI if more SII observations are not foreseen.
+
# '''[CIC]'' -> '''ecc.shutter_move 0'''
*Close the TPoint lid.
+
# '''[CIC]''' -> '''backfromtpoint'''
*Track T CrB in wobble mode.
+
# '''Check''' that camera reaches READY state in CIC. You might need to sync CM in TCU.
*Set the corresponding HV (standard/reduced) and DT settings (extragalactic/moon).
+
# '''Check''' that there are no pixels in error in [https://camera.lst1.iac.es/mon6 camera monitor 6]. In the Pixel error state plot (all the pixels should be in blue).
*Open the camera.
+
# Now that Camera and SM are in READY you can schedule a gamma-ray observation using AutoOperator.
*Enable IPRC.
 
*(Maybe not needed: Configure the CaliBox back from SuperArehucas (Calibration -> Setup calibration -> Auto).)
 
*Start the gamma-ray DAQ. '''If you are using reduced HV''', remember to set the proper calibration wheel settings: (5,4) for M1 and (3,5) for M2.
 
*When observations start, check that the CaliBox laser is firing again.
 

Latest revision as of 13:39, 16 June 2024

[It's Happening]

PI & COIs[edit]

Gamma-ray:
PI: David Green (+49 151 57636472)
COIs: Rubén Lopez Coto, Julian Sitarek (phone in here, during the night call me from shift leader mobile phone)

Stellar Intensity Interferometry:
PI: Tarek Hassan (+34 680 26 02 66)
COIs: Alejo Cifuentes (+34 629 52 31 95) Juan Cortina (+34 646 357 376)

Source[edit]

Source: T CrB
Coordinates: RA = 15h 59m 30.16s, DEC = +25º 55' 12.61"
Wobble: Standard
Zenith angle: < 70 deg
HV settings: Standard / Interferometry / Reduced HV (if around full moon)
DT settings: Extragalactic / Moon
Stereo observations with LST-1

Instructions[edit]

This section describes the instructions for the first night of observations of T CrB. Unless otherwise stated by the PIs, these observations are broken into two parts: Gamma-ray and Stellar Intensity Interferometry (SII). After the first night, only gamma-ray observations are planned, except if you are told otherwise by the PIs.

If you receive an alert regarding the T CrB eruption during the night, please call the PIs as soon as possible (their phone numbers are listed at the top of this page). In the case that gamma-ray observations of T CrB are started due to the automatic (GRB) procedure, stop these observations and switch to SII as described below. Also, if the PIs are not available, please begin the SII observations and keep trying to contact them. Once the PIs are aware of the eruption, communication with them should go through the following Zoom room: https://mppmu.zoom-x.de/j/65181605135?pwd=eW9lQjhyd25yK3ovU1paQTY2ZG9OZz09.

Important: The automatic GRB procedure should be disabled when observing T CrB to prevent the automatic repointing to another eventual transient event.

Coordination with MAGIC[edit]

T CrB observations should be done together with MAGIC. For this purpose, the Shift Leader phone is in a Telegram group with the PIs and the MAGIC Shift Leader phone. Use this group and the aforementioned Zoom room to coordinate the wobble positions with MAGIC and communicate with the PIs.

Cadence of Observations[edit]

The cadence of observations for the first night will go as described below unless otherwise stated. Wobble positions should be coordinated with MAGIC.

  • SII: First 40 minutes (ON mode)
  • Gamma-ray: Next 40 minutes (standard W1 + W2)
  • SII: Next 20 minutes (ON mode)
  • Gamma-ray: Next 40 minutes (standard W3 + W4)
  • SII: Next 20 minutes (ON mode)
  • Gamma-ray: Next 40 minutes (standard W1 + W2)
  • Repeat the 20/40 minute cycle until T CrB goes above a zenith angle of 70 deg or the night ends.

It may be the case that LST only does gamma-ray observations and, if so, they will follow the standard wobble scheme. In this case, the procedure described above should be slightly changed so that the wobbles used by MAGIC match those used by LST, as shown in the following table:

If LST only takes gamma-ray data
LST MAGIC
W0.40+000 ON
W0.40+180 ON
W0.40+090 W0.40+090
W0.40+270 W0.40+270
W0.40+000 ON
W0.40+180 W0.40+180
W0.40+090 W0.40+090
W0.40+270 ON
W0.40+000 W0.40+000
W0.40+180 W0.40+180
... ...

There is also the chance that the initial 40-min SII observations will be shortened if T CrB is not detectable by SII. In that case, the 40-min gamma-ray observations will begin and the 20/40 cycle will follow. Instructions on how to determine whether T CrB has been detected by SII are given below, as well as the detailed steps to swap from SII to gamma-ray observations and the other way around.

Gamma-ray observations[edit]

Gamma-ray observations are straightforward, since the source should already be included in the Current Period catalog of TCU. Observations should take place jointly with MAGIC, so please be in contact with the MAGIC shifters to ensure that the wobbles match and the observations begin at the same time.

If we are lucky, we will observe the optical rise of the nova, which is expected to happen very quickly, at several magnitudes per hour. Be aware that T CrB will become very bright in the optical, with an expected peak V-band magnitude of ~ 2. This will cause pixels around the source go into reduced HV and may cause oscillations in the rates. If this is the case, continue observations normally and report in the ELOG any issues that you see.

From gamma-ray to SII observations[edit]

Below are the detailed steps to follow in order to swap from gamma-ray to SII observations. A more in-depth description of the SII observations can be found [here].

  1. [eGUI]: -> TCU tab -> In the AutoOpertator section click on "Disable GCN follow up"
  2. [eGUI]: -> TCU tab -> In the SM section -> Configure: click on new source and a drop down menu will appear -> select T CrB, select ON mode. -> Click on "Star observing" and enter the observing time in seconds.
  3. Open a CIC terminal if not done already and send the following commands.
  4. Check in CIC that camera state is READY.
  5. Check in CIC that shutter is closed.
  6. [CIC]: -> cbox.set_laser_status off
  7. [CIC]: -> clus.disable_hv
  8. [CIC]: -> set_hv_interferometry_80
  9. [CIC]: -> clus.enable_hv 1
  10. Check in camera monitor 0 that only m133p4 and m134p4 pixels have HV on (it takes a few seconds to update, you might need to refresh the webpage).
  11. [CIC]: -> movetotpoint
  12. Wait until camera reaches TPOINT state in CIC.
  13. [CIC]: -> ecc.sis_move_xy 1110 1291
  14. Wait 10s for the SIS to move.
  15. [CIC]: -> ecc.shutter_move 1
  16. Check in camera monitor 0 that DC is higher in m133p4 (signal pixel) than in m134p4 (background pixel).
  17. Contact MAGIC shifters and tell them you are ready, they should have started the interferometry DAQ once MAGIC is ready.

SII observations[edit]

The SII DAQ is controlled from the MAGIC CH. Once started it will take a run every 5 min, MAGIC shifters will check the joint data.

During the observations monitor check that SM is tracking. If it stops tracking before the observation ends, do not change the camera state and track again T CrB in ON mode.

You can also check the DC and HV values from the camera monitor 0.


Stop SII observations earlier only if MAGIC decides to stop (because of a very faint DC signal).

From SII to gamma-ray observations[edit]

Below are the detailed steps to follow in order to swap from SII to gamma-ray observations.

  1. If you are still tracking, stop tacking from SM.
  2. Using CIC terminal use the following commands:
  3. [CIC] -> ecc.shutter_move 0'
  4. [CIC] -> backfromtpoint
  5. Check that camera reaches READY state in CIC. You might need to sync CM in TCU.
  6. Check that there are no pixels in error in camera monitor 6. In the Pixel error state plot (all the pixels should be in blue).
  7. Now that Camera and SM are in READY you can schedule a gamma-ray observation using AutoOperator.
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