22.3 Factors Limiting Flux and Wavelength Accuracy

Due to the lack of repeatability of the Mode Select Mechanism (STIS's grating wheel-see page 19-3), the projection of your spectrum onto the detector in both wavelength and space will vary slightly (1 to 10 pixels) from observation to observation (if the grating wheel is moved between observations). In addition, thermally induced motions can also affect the centering of your spectrum. The calstis pipeline removes the zeropoint offsets using the contemporaneously obtained auto-wavecals (see "WAVECORR" on page 21-26). The wavelength zeropoint in your calibrated data (the rootname_sx2.fits, _x2d.fits, _x1d.fits, and _sx1.fits files) is corrected for these offsets and should have a wavelength zeropoint accuracy of ~0.1-0.2 pixels (better when the wavecal is taken through small slits, worse for those taken through wider slits). This accuracy should be achieved, so long as contemporaneous wavecals were taken along with the science data, distributed at roughly one hour intervals among the science exposures, and assuming the target was centered in the slit to this accuracy or better.

The accuracy of the zeropoint pipeline calibration in the spatial direction is slightly less, roughly 0.2-0.5 pixels. This is because the finding algorithm, which must locate the edges of the aperture for short slits and the edges of the fiducial bars on the slits for the long slits, is less robust. Observers need to be aware of possible offsets between spectra in the spatial direction, particularly when deriving line ratios for long-slit observations of extended targets taken with different gratings.