Astronomy and Astrophysics – Astronomy
Scientific paper
Apr 1999
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1999pasp..111..512l&link_type=abstract
The Publications of the Astronomical Society of the Pacific, Volume 111, Issue 758, pp. 512-521.
Astronomy and Astrophysics
Astronomy
12
Infrared Radiation, Instrumentation: Miscellaneous, Methods: Observational, Physical Data And Processes, Techniques: Miscellaneous
Scientific paper
We have measured chromatic differential refraction of astronomical images by the Earth's atmosphere, comparing visible light at 500-600 nm with infrared near 12 mum, and found the index of refraction near 12 μm to be greater than predicted by the dispersion relation in common use. The differential refraction between visible and 12 μm thus is smaller than the extrapolated difference. At Mauna Kea, the empirical differential refraction at 45 deg from zenith was measured at 0.28"+/-0.28" (3 sigma) on one occasion, compared to an expected differential refraction of 0.63"-0.69". Refractivity scales linearly with barometric pressure, and thus the inaccuracy is more severe at lower altitude observatories. The pointing error from inaccurate correction for differential refraction is comparable to the point spread function width of an 8-10 m telescope in this wavelength range. Even on smaller telescopes, accurate correction for differential refraction is necessary to guide small-aperture spectrophotometry or to register mid-infrared imaging with visible-light structures.
Buhl David
Espenak Fred
Fast Kelly Elizabeth
Goldstein Jeffrey Jay
Hewagama Tilak
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