Astronomy and Astrophysics – Astronomy
Scientific paper
Nov 2002
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2002pasp..114.1252e&link_type=abstract
The Publications of the Astronomical Society of the Pacific, Volume 114, Issue 801, pp. 1252-1259.
Astronomy and Astrophysics
Astronomy
1
Instrumentation: Spectrographs, Methods: Numerical
Scientific paper
Astronomical optics may encounter a wide range of nighttime temperatures (~-10°C to +20°C) at mountaintop observatories. Complex refractive optics used in high-performance spectrographs and focal reducers may perform poorly at temperature extremes unless special care is taken in their design. Refocusing will not always restore image quality, and thermally induced focal length changes may introduce troublesome image motion. We describe the techniques that we have used to predict the thermal behavior of the Binospec Spectrograph, an instrument under development for the converted Multiple Mirror Telescope. This thermal analysis must account for (1) the change in optical power due to thermal expansion of the optical elements, (2) thermal variations in the refractive indices of the optical elements, and (3) element respacings due to the interplay between the thermal expansions of the optical elements and cell materials. Binospec's multiplets are fluid coupled to reduce the reflection losses that would occur at glass-air surfaces; to athermalize the Binospec optics, we form weak lenses in the optical coupling fluid within multiplets. The large variation of the coupling fluid's refractive index with temperature allows these weak fluid lenses to correct thermal changes in the optical elements and cell. This athermalization technique is attractive because it introduces no additional mechanical complexity.
Epps Harland W.
Fabricant Daniel G.
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