Abstract
The mid-infrared instruments, operating in the 10 and 20 μm atmospheric windows, on the Gemini 8-m telescopes are described. The advantages and disadvantages of ground-based telescopes compared to satellite observatories are briefly discussed. On Gemini-N, Michelle, a cryogenic imager and grating and echelle spectrometer built at the UK Astronomy Technology Centre in Edinburgh offers imaging, long-slit spectroscopy and polarimetry. Spectral resolving powers between 200 and 20,000 are available by selecting one of five interchangeable gratings held in the cold grating drum. The Thermal Region Camera-Spectrometer (TReCS) is undergoing final tests at the University of Florida before delivery to Gemini-S. It offers imaging and low or moderate resolving power ( R<1000) spectroscopy. Even with the excellent image quality and low-emissivity of the Gemini telescopes, the thermal background from the sky, telescope and instrument windows are many orders of magnitude greater than the mid-infrared background emission in space. The main advantages of the Gemini instruments are the high spatial resolution available from large aperture ground-based telescopes (FWHM ∼ λ/ D=0.3 arcsec at 12 μm), the versatile instrumentation and the high spectral resolution, which coupled with the 50 m 2 collecting area, gives good spectroscopic performance. Some initial performance figures and results are given.
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