Abstract
We describe the data processing pipeline developed to reduce the pointing observation data of Lunar-based Ultraviolet Telescope (LUT), which belongs to the Chang’e-3 mission of the Chinese Lunar Exploration Program. The pointing observation program of LUT is dedicated to monitor variable objects in a near-ultraviolet (245–345 nm) band. LUT works in lunar daytime for sufficient power supply, so some special data processing strategies have been developed for the pipeline. The procedures of the pipeline include stray light removing, astrometry, flat fielding employing superflat technique, source extraction and cosmic rays rejection, aperture and PSF photometry, aperture correction, and catalogues archiving, etc. It has been intensively tested and works smoothly with observation data. The photometric accuracy is typically ∼0.02 mag for LUT 10 mag stars (30 s exposure), with errors come from background noises, residuals of stray light removing, and flat fielding related errors. The accuracy degrades to be ∼0.2 mag for stars of 13.5 mag which is the $5\sigma$ detection limit of LUT.
Highlights
Lunar-based Ultraviolet Telescope (LUT) is the first robotic astronomical telescope deployed on the moon surface
LUT is placed inside a cabin of the lander of Chang’e-3 mission (Ip et al 2014) which belongs to the Chinese Lunar Exploration Program
The pipeline consists of several procedures, including overscan correction, stray light removing, astrometry, flat fielding, source extraction, cosmic ray rejection, aperture radii determination, photometry, aperture correction and catalogues archiving procedures, which are summarized in Ta
Summary
Lunar-based Ultraviolet Telescope (LUT) is the first robotic astronomical telescope deployed on the moon surface. 47 Page 2 of 9 images taken with internal LEDs are not perfect in terms of large-scale uniformity To solve this problem, the large-scale illumination structure, i.e. superflat, obtained through dithering observations, is coupled with the illumination corrected and normalized LED flat field. 2. Details of the procedures of the pipeline, and the building of LUT flat field are described in Sect. The run re-direct the flat mirror pointing to make the target return to the center. Such a strategy favors stray light removing and flat fielding LUT can obtain internal flat field images to correct pixel-to-pixel nonuniformity in CCD sensitivity, making use of its LED lamps. Flat field correction in each month made use of the superflat of the adjacent month
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
