EFOSC2ESO Faint Object Spectrograph and Camera
Dome/Sky Flat Fields -- SpectroPolarimetry
Spectropolarimetry Flat frames are obtained in a manner similar to Spectroscopic
Flats. Obervers should go through the Dome/Sky
Flats - Spectroscopy page before continuing here. Only the differences
are highlighted here.
|Long Slit Spectroscopy versus SpectroPolarimetry|
The Wollaston prism is mounted on the filter wheel (unlike the polarimetric imaging case when it is on the grism wheel). Note The 10" Wollaston prism cannot be mounted on the filter wheel. Thus only the 20" Wollaston Prism is available for spectropolarimetry.
The Wollaston mask in the case of spectropolarimetry consists of a 1.5" long slit masked by parallel strips slightly more than 20" wide and separated by 20". Since grisms are always aligned with dispersion along the y-axis the slit has to be along the x-axis and so the Wollaston prism has to be aligned so as to split the images along the x-axis - i.e. it has to aligned as for a perpendicular mask. The support astronomer will ensure that the orientation is correct but observers should ensure that they do not inconsistent elements in their set-up request.
A Half Wave Plate is introduced into the optical path and set into continuous rotation during Flat frames -- this ensures that the light incident on the CCD is completely depolarised. The HWP completes a rotation in 2.3 seconds. To ensure uniformity of illumination the procedure requires a minimum exposure time of 10 seconds.
Refer to Polarimetric optical elements.
|jP2PP panel with typical parameters|
jP2PP Panel with Typical Parameters
The above example shows an OB comprising a sequence of
Note : If more than one mode of Polarimetric observation is planned the observer should contact the support astronomer before making the OB. For eg. Spectropolarimetry requires a perpendicular Wollaston mask (i.e. the 1.5" spectropolarimetric slit) and possibly the observer might also want to do polarimetric imaging with a perpendicular Wollaston (imaging) mask. However there is only one slot defined for a perpendicular mask in jP2PP. The solution is trivial in that one can load the second perpendicular mask in the slot and name it as a parallel mask and choose the same in jP2PP. However this must be discussed beforehand to ensure that jP2PP definitions and instrument settings are consistent with the correct masks loaded in the corresponding slot on the instrument.
The FITS image output by the template is named EFOSC_FlatPolSpec.#.fits
As an example the following image is given, which shows a SpectroPolarimetric flat of 40,000 ADU with 20" Wollaston Prism, Grism #13, Wollaston Mask (1.5" SpecPol Mask), normal readout and 2x2 binning. Click on the image to get a larger version:
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Last modified: Sat Apr 09 21:23:01 CLST 2005