Logging in
The RCC telescope can be controlled from m5
. To access the computer, you can use ssh
, for example:
ssh -X user@m5.konkoly.hu
where user is your username on m5
For observing, it is advised to use the screen
utility, see its description here: Usage of the screen program
As an alternative to ssh
, you can use X2GO, which gives you remote access to the graphical user interface. See its description here: Usage of X2GO
Turning ON the cooler
At the start of an observing week, you can turn on the spectrograph cooler as:
- Check the IP Stecker on
http://172.31.171.99
, Login: admin,FLI,CHILLER ON
. - Restart the ALIX on the IP Stecker.
- Wait for two minutes.
- On
m5
:cooler --start
,cooler --status
.
- Check the IP Stecker on
If the weather is predicted to be bad for a few days, consider turning off the cooler. Try to avoid turning it on and off too frequently.
Starting
- Enter your working directory in a console:
cd /data2/user/YYYYMMDD
Always save your fits files into the data folder!
- In a console type:
rcc-test
If everything is green, proceed further. If not, contact the support astronomer.
- In a console type:
acectrl --status
IfMain pickoff mirror
ison
, the telescope is ready for spectroscopic observations. If not, typeacectrl --start
. For help seeacectrl --help
- Start
ds9
. Check the telescope:http://ccdsh.konkoly.hu/static/tmp/prcc-state.html?refresh=60
- Start CCDSH in a console:
ccdsh
- If your .ccdsh_startup file is not prepared for the usage of the spectrograph camera, type in CCDSH:
CCD>
source /usr/local/ccdsh/scripts/load-spec.ccdsh
This will load the camera driver.
- Type
CCD>
status; rcc status
in CCDSH. If everything is green, proceed further.
- Check the camera temperature in CCDSH:
CCD>
get temperature
If it is not cooled down, check the status of the cooler (should be turned on):cooler --status
Cool down the camera:CCD>
set temperature -40
- If the temperature difference between the actual temperature of the camera and the target temperature is big, cool it down in two steps. In summer, the target temperature should be -35 Celsius, in other seasons -40. You can check the weather information with
pszk-met
, and the Coudé room temperature and humidity athttp://ccdsh.konkoly.hu/rccroom/
. Checkget temperature
, whether the cooler can keep the desired temperature (the power stays below 100%). Generally, do not go below -45 in summer, or below -50 in winter.
- Cool the guider camera. Type in a console:
rcc-autoguide.qsi --temperature -20
(or use a value around -15 in summer)
- Open the dome slit. In CCDSH:
CCD>
set dome slit open
- Start the tracking:
CCD>
set mount track on
- Start the automatic dome rotation:
CCD>
rcc dome auto
- Open the tube and mirror covers:
CCD>
rcc tubecover open
- After 30 seconds:
CCD>
rcc mirrorcover open
- Type
CCD>
rcc status
. If everything is opened and green, proceed.
Focusing
- Set the spectrograph mode appropriately. Probably you would start with taking a few ThAr spectra, so use
acectrl --mode thar
. Starting with some ThAr spectra can easily check whether the bench collimator optics is in focus and such spectra can also be taken while waiting for the bench camera to completely be cooled down. - If the ThAr spectra are slightly out of focus, use
acectrl --spectrum-focus [+|-]step
to fine-tune in the focus position. Usual increments are around +/-100. If the ThAr spectra are completely blurred, reset the collimator focus usingacectrl --spectrum-reset
and then start tuning with the focus. Don't forget to explicitly specify the sign of focusing steps! - The exposure time and gain values used by the on-axis fiber camera can be controlled with the program mintronctrl:
mintronctrl -g 6 -e 5
. - Turn on the auxiliary LED on by
acectrl --led 0.7
. - Watch the live image of the on-axis camera. If needed, adjust focus of the on-axis fiber camera optics with
acectrl --fiber-focus [+|-]step
. Usual increments are around +/-10. - Turn off the auxiliary LED on by
acectrl --led 0
. - In a single run, never change the focus of the fiber camera optics once set properly.
- Use the CCDSH focusing command
CCD>
set focus 81.2
to focus the telescope in order to have a sharp image on the on-axis fiber camera (the approximate telescope focus value for the spectrograph is around 81.2, depending on the weather conditions). As an alternative, you can usercc autofocus apply
, which sets the focus depending on the current temperature.
Observing
- If the camera is cooled, take same ThAr spectra and save them. Use exposure times between 1...5 seconds:
CCD>
!acectrl --mode thar; !sleep 4; sequence -n %N-%F-thar-1s 1*([object,time=1]); !acectrl --mode science
This command first changes to ThAr mode, waits 4 seconds, takes 1 ThAr spectrum with 1 second exposure and turns back the spectrograph to science mode. - In a single run, never change the bench focus position once set properly.
- Turn the spectrograph into scientific mode with
acectrl --mode science
. - Open a browser window to monitor the fiber camera on https://ccdsh.konkoly.hu/aux/rcc/onaxis/video.mjpg
- The exposure time and gain values used by the on-axis fiber camera can be controlled with the program mintronctrl:
mintronctrl -g 6 -e 5
- Check the visibility of your target:
CCD>
staralt 'beta cvn'
- Slew the telescope to the desired position:
CCD>
slew 'beta cvn'
In case of any problem, you can stop the slewing process byCCD>
set mount stop
. This will turn off also the tracking of the telescope. - Tweak the telescope position (using CCDSH or the program
rccpanel
) in order to move the target star behind the fiber. If your target is not where you want it, type in a console:rccpanel --speed 8 &
. This will bring up a small panel. With the arrows you can move the telescope. You can adjust the speed, max. is 10. Check the position again with a test image. If the target is where you want it, start the autoguiding. First, create a test image with the guider. Type in a console:rcc-autoguide.qsi --exptime 10 -o x.fits
And:xpaset ds9 fits < x.fits
If there are more than 10 stars, you can start the autogide with this command in a console:rcc-autoguide.qsi --exptime 10 --relax 5 --point
This will do a 10 seconds exposure, and wait 5 seconds until the next. And in the meantime it will adjust the position of the telescope. If you have less than 10 stars in the guider FOV, use the--fine
option, instead of the--point
. As an alternative, you can use the analytic guider withrcc-guide
(checkrcc-guide --help
for help). Stop autoguiding only during "Relaxing" usingctrl+c
. Stop autoguiding first if you want to move to an other target! - Take spectra:
CCD>
sequence -n %N-beta_cvn-60s 10*([object,time=60])
This will take 10 images with 60 seconds exposure time. The output fits image name starts with the date. For a quick check, you can useacquire -t 60
for a 60 seconds exposure without saving it. - Take ThAr spectra regularly, at least 2-3 times per night. The frequency of such spectra depends on the scientific accuracy needed by the actual observations. In general, the larger the thermal stability of the bench, the less frequent the ThAr spectra have to be taken.
Calibration frames
You can take bias and dark frames with:
CCD>
sequence -n bias 10*([bias])
CCD>
sequence -n dark-60s 5*([dark,time=60])
To take flatfield images, turn on the flat lamp with acectrl --mode flat
, and run:
CCD>
sequence -n flat-5s-%N 10*([object,time=5])
A few seconds of exposure time is usually enough. Once finished, turn off the flat lamp with acectrl --mode science
.
Also, don't forget to take ThAr images regularly.
Closing
When you finished observing, stop the autoguider when it is in a relax state with ctrl+c
. Also, you can stop a sequence or a script with ctrl+c
.
Warm up the guider camera. In a console:
rcc-autoguide.qsi --temperature off
Stop the spectrograph: The following series of commands should be executed:
- Turn the spectrograph into scientific mode with
acectrl --mode science
. This command will also switch off the ThAr lamp and flat lamp if these were turned on berfore. - Also ensure that the auxiliary LED is switched off with the command
acectrl --led 0
. - Check the status with
acectrl --status
. The above two commands ensure that no light sources are left turned on and hence the spectrograph frontend box is completely dark. This is essential if alternate instrumentation mounted below the frontend box is going to be used. - Turn off the spectrograph with
acectrl --stop
.
In CCDSH:
CCD>
set mount track off
CCD>
rcc dome manual
CCD>
rcc mirrorcover close
- After 30 seconds:
CCD>
rcc tubecover close
CCD>
set dome slit close
CCD>
rcc slew 0 47.8
CCD>
set dome azimuth=156.3
After a few minutes, check that everything is OK and closed:
CCD>
status; rcc status
Turn on the lights in the dome:
CCD>
set dome light 1 on/off
Check the telescope on the webpage:
http://ccdsh.konkoly.hu/static/tmp/prcc-state.html?refresh=60
Turn off the lights in the dome:
CCD>
set dome light 1 off/on
After you finished making the calibration images you can warm up the camera:
CCD>
set temperature 0
Once this temperature is reached, you can turn off the camera cooling with:
CCD>
set temperature off
The temperature of the camera should rise slowly. You don't have to warm completely up the camera, but in case of storms and other anomalies it is recommended.
Turning OFF the cooler
At the end of the week observing with the spectrograph, if the spectrograph will likely not be using for at least 3-4 days, you can turn off the cooler. Try to avoid turning it on and off too frequently (i.e., don't turn it on/off every day). Make sure to warm up the camera beforehand from CCDSH with set temperature 0
and set temperature off
.
- Warm up the camera in
ccdsh
. - On
m5
:cooler --stop
,cooler --status
. - Log in to the IP Stecker (
http://172.31.171.99
) and turn off theFLI
and theCHILLER
.
- Warm up the camera in
Troubleshooting
In case of any problem, consult the Troubleshooting page and/or notify the support astronomer. If you are the support astronomer, document the problem on Internal:RCC_error_log.