Telescopes and Instruments

The SDSS uses a dedicated 2.5-m f/5 modified Ritchey-Chrétien altitude-azimuth telescope located at Apache Point Observatory, in south east New Mexico (Latitude 32° 46' 49.30" N, Longitude 105° 49' 13.50" W, Elevation 2788m). A 1.08 m secondary mirror and two corrector lenses result in a 3° distortion-free field of view. The telescope is described in detail in a paper by Gunn et al. (2006).

The fourth phase of the SDSS includes observations from the Southern Hemisphere . The southern observations are taken with the Irénée du Pont Telescope at Las Campanas Observatory in northern Chile (Latitude 29° 0' 52.56" S, Longitude 70° 41' 33.36" W, Elevation 2380m). The du Pont telescope is a Ritchey-Chrétien 2.5-m f/7.5 telescope with a Gascoigne corrector lens. The telescope is described in detail in a paper by Bowen & Vaughan (1973).

The NMSU 1-meter telescope structure at APO, with the Sloan Telescope housing in the background. Image Credit: Maurice Clark

A number of important stars that are too bright to observe with the larger telescopes are instead observed with the NMSU 1-meter telescope at APO (Latitude 32° 46' 49.30" N, Longitude 105° 49' 13.50" W, Elevation 2788m). A fiber lead connects the APOGEE-North spectrograph to this facility, which contains a Ritchey-Chretien reflector set on an alt-azimuth mount. The details of this telescope can be found in Holtzman et al. (2010).

The eBOSS spectroscopic survey continues to use the spectrographs built for BOSS. These two identical spectrographs are rebuilt from the original SDSS spectrographs, which were used for the SDSS Legacy and SEGUE surveys. Each spectrograph has two cameras, one red and one blue, with a dichroic splitting the light at roughly 6000 Å and a full wavelength range from 3600 to 10,400 Å.  Additional information can be found on the BOSS spectrograph page.

At Apache Point Observatory, the APOGEE-2 survey continues to employ the high-resolution, near-infrared spectrograph used for the APOGEE-1 survey. A virtually analogous instrument was constructed for Las Campanas Observatory. The APOGEE instruments are custom-built, multi-object spectrographs that record the 1.51-1.70 micron spectrum of 300 targets simultaneously, with a spectral resolution of ~22,500. Additional information can be found on the APOGEE spectrographs page.

MaNGA is a galaxy survey which is obtaining detailed integral field unit (IFU) resolved spectroscopy measurements of 10,000 nearby galaxies. MaNGA uses the eBOSS / BOSS spectrograph, but instead of placing a single fiber on each galaxy, it uses specially-designed hexagonal ferrules to close-pack the circular fibers into hexagonal bundles. Each MaNGA cartridge contains 17 bundles ranging in size from 19 to 127 fibers, each enabling detailed observations of 17 galaxies simultaneously. Additional Information can be found on the Instrumentation section of the MaNGA surveys page.

MARVELS used a specially-built interferometric spectrograph to obtain high-precision radial velocity measurements of stars looking for exoplanet candidates. In contrast to the more traditional high-resolution echelle spectrographs, MARVELS used a new approach to measuring radial velocities. The spectrograph is a fiber-fed dispersed fixed-delay interferometer (DFDI), a combination of Michelson interferometer and a medium resolution (R~6,000-10,000) spectrograph, which overlays interferometer fringes on a long-slit stellar spectrum. Additional Information can be found on the MARVELS spectrograph page.

During the night, an observer changes the cartridge to observe a new set of stars or galaxies roughly every hour. Each cartridge contains hundreds of fiber-optic cables plugged into holes in a large aluminum plate. Each fiber observes a single star or galaxy.

The “bright time” observing is during full moon, the “dark time” is before moonrise, with the moon (not the sun!) rising shortly before the end of the video. Credit: John Parejko (University of Washington) and the SDSS collaboration.