Notes on Thermal Imaging

Overheads

Overheads for broadband thermal imaging can be significant. Either the 0.06 or 0.12 "/pixel cameras can be used; the smaller pixel scale is more efficient but of course gives a smaller field. The counts from the night sky with the minimum exposure times with the full 1024 x 1024 array using the 0.12"/pix camera are given in the table below. Both 512x512 and 256x256 subarrays are available although it is expected that the smallest subarray will not be frequently used. Exposure times and overheads for L' and M' for each camera are given in the table below. These are preliminary values, which will be updated after more measurements.

^b We have found that the 512x512 readout and the 0.06 camera at L' is not as stable as the 1024x1024 readout - the background is not always cleanly subtracted. We strongly recommend using the 1024x1024 readout with the 0.06 camera at L' - efficiency is still quite high.

Photometric Behaviour and Telescope Offsets

We have found that the low-QE lower right quadrant (upper left now) and the central 100-pixel wide area of the array are not always well behaved, in that subtracted pairs of images can show some variation in these regions. Also photometry in these regions can give fainter values compared to positions elsewhere in the field. This is not fully understood, but the problem in the centre may be related to the fact that the array is read from the outer corners into the middle, so that the central region is exposed to sky for longer in a reset-read-read NDSTARE observation which may lead to non-linearity effects. The problem is especially bad at L' with the 0.06 camera and the 512x512 readout - we recommend not observing in this configuration but instead use the full 1024x1024 readout if using the 0.06 camera at L'. The 512x512 performs reasonably for M'.

To deal with the problem of the lower QE, the template and standard star libraries were set up to use offset patterns that avoid the lower right and centre as far as possible, where the low-QE region was located before flipping. For the nod-8 pattern and the 512x512 subarray this means that we use the left (North) side of the array only, as the telescope aperture places the target slightly left of centre. The array orientation was flipped (up-down) in the cryostat in March 07. To take care of this change in orientation, the offsets in the libraries and the templates will be modified soon.