The Irénée du Pont Telescope
| Instrument | Description | Specs | Website | Notes |
| CCD | Direct CCD Camera |  |
|
A |
| WIRC | Wide Field IR Camera | |
|
B |
| WFCCD | Wide Field Reimaging CCD Camera | |
|
C |
| Boller & Chivens Spectrograph | Slit Spectrograph | |
|
D |
| Echelle | Echelle Spectrograph | |
E | |
| CAPSCam | Astrometric Planet Search Camera | |
|
F |
| RetroCam | HgCdTe IR Camera |
 |
 |
G |
NOTES
A. The SITe2K CCD is available for direct imaging on the du Pont 2.5-meter telescope, and gives a scale of 0.259" per pixel over a field of 8.85 arcmin square.
B. The WIRC is an imaging camera composed of four 1024 x 1024 Hawaii HgCdTe arrays mounted in a common focal plane. The gap between the arrays is ~0.9 of an array dimension. The instrument is operated at the Cassegrain focus of the du Pont telescope and has a scale of 0.196" per pixel.
C. The wide field reimaging CCD (WFCCD) camera reimages a 25 arc-minute diameter field onto the WF4K CCD camera, with a scale of 0.484 arcsec/pixel. It produces images of approximately two pixels over the full field, and has good transmission from 3800 Å to 9000 Å. Metal slit masks are used to provide a multi-object spectroscopy capability. Observers should consult J. Mulchaey (mulchaey@obs.carnegiesciene.edu) or I. Thompson (ian@obs.carnegiesciene.edu) about mask making procedures and should allow three months for the production of the masks.
D. The B & C spectrograph uses a Marconi CCD mated to a Bowen Schmidt camera as the detector. When used with the 600 line/mm grating the dispersion is 1.5 Å/pixel with a wavelength coverage of 3100 Å. The spatial scale on the du Pont Telescope is 0.70 arcsec/pixel, and the maximum slit length 271 arcsec.
E. The Echelle Spectrograph provides simultaneous wavelength coverage from ~3700-7000 Å at a typical resolution of ~40,000.
F. CAPSCam is a specialized astrometric camera designed for an astrometric search for Jupiter-like planets. The camera employs a Rockwell Hawaii-2RG HyViSI array, and the design is optimized for high accuracy astrometry of red dwarf stars. Observers interested in using this instrument should contact Alan Boss (Carnegie-DTM) or Ian Thompson (OCIW).
G. RetroCam is a near-IR imager built especially for the Carnegie Supernova Program, but which is generally available to users. RetroCam employs a Rockwell Hawaii-1 HgCdTe 1024x1024 array. The focal plane scale is 0.201 arcsec/pixel, with a total field size of 3.4arcmin square. A single filter wheel containing Y, J, and H filters is available.
