Gaia: focus, straylight and basic angle
Abstract
The Gaia all-sky astrometric survey is challenged by several issues affecting the spacecraft stability. Amongst them, we find the focus evolution, straylight and basic angle variations Contrary to pre-launch expectations, the image quality is continuously evolving, during commissioning and the nominal mission. Payload decontaminations and wavefront sensor assisted refocuses have been carried out to recover optimum performance. Straylight and basic angle variations several orders of magnitude greater than foreseen were found and studied during commissioning by the Gaia scientists (payload experts). Building on their investigations, an ESA-Airbus DS working group was established during the early nominal mission and worked on a detailed root cause analysis. In parallel, Gaia scientists have also continued analysing the data, most notably comparing the BAM signal to global astrometric solutions, with remarkable agreement. In this contribution, a status review of these issues will be provided, with emphasis on the mitigation schemes and the lessons learned for future space missions where extreme stability is a key requirement.
Cite
@article{arxiv.1608.00045,
title = {Gaia: focus, straylight and basic angle},
author = {A. Mora and M. Biermann and A. Bombrun and J. Boyadian and F. Chassat and P. Corberand and M. Davidson and D. Doyle and D. Escolar and W. L. M. Gielesen and T. Guilpain and J. Hernandez and V. Kirschner and S. A. Klioner and C. Koeck and B. Laine and L. Lindegren and E. Serpell and P. Tatry and P Thoral},
journal= {arXiv preprint arXiv:1608.00045},
year = {2016}
}
Comments
17 pages, 17 figures. To appear in SPIE proceedings 9904-78. Space Telescopes and Instrumentation 2016: Optical, Infrared, and Millimeter Wave. Version 2: additional details on commissioning investigations added