B.1 FGS1r’s First Three Years in Orbit
As a result of the misfigured HST primary mirror, the FGSs must contend with a spherically aberrated wavefront. As discussed in Chapter 2, this aberration amplifies the degrading effect of any misalignment of FGS optical elements that produces a shift of the beam at the Koesters prism. The result is a deformed S-Curve with reduced modulation. In order to provide an in-flight means to align FGS1r and thereby guarantee its interferometric performance, a stationary mirror was remounted on a commandable mechanism capable of tip/tilt articulation. This Articulating Mirror Assembly (AMA) is currently available in FGS1r and FGS2r.2 Without the AMA, FGS1r would most likely not have been suitable as a science instrument.
The first year of FGS1r’s tenure in orbit is best described as an adjustment process. Upon reaching orbit, the instrument’s interferometric response had already degraded, presumably due to a shift of the pupil at the Koesters prism induced by the launch stresses and gravity release. Early in the commissioning process, the AMA was adjusted to correct the instrument’s alignment and restore its S-Curves to near ideal. Figure B.1 compares the full aperture (F583W) S-Curves before and after the initial AMA adjustment.
It was anticipated that FGS1r’s performance would evolve during its first year in orbit due to the outgassing of the graphite epoxy composites upon which the instrument’s optical bench is mounted. To monitor the changes, a standard star was observed in Transfer mode, once per month for the first 120 days, and then approximately every 3 months afterward. Consistent with the outgassing hypothesis, the S-Curves on both the X and Y axis were seen to change (degrade) quickly at first but eventually reached an approximate steady state by the first quarter of 1998. Figure B.2 shows the early evolution of the full aperture (F583W) S-Curves, from initial optimization on March 24, to August 10, 1997, and Figure B.3 shows the evolution from September 19, 1997 through February 23, 1998.
