Palomar Observatory remains an active research facility, operating multiple telescopes every clear night, and supporting a large international community of astronomers who study a broad range of research topics. The
Hale Telescope J.B. Whiteoak, an Australian radio astronomer, used the same instrument to extend POSS-I data south to −42°
declination. Whiteoak's observations used the same field centers as the corresponding northern declination zones. Unlike POSS-I, the
Whiteoak extension consisted only of red-sensitive (Kodak 103a-E) photographic plates.
POSS-II The
Second Palomar Observatory Sky Survey (
POSS II, sometimes
Second Palomar Sky Survey) was performed in the 1980s and 1990s and made use of better, faster films and an upgraded telescope. The Oschin Schmidt was upgraded with an achromatic corrector and provisions for autoguiding. Images were recorded in three wavelengths: blue (IIIaJ. 480 nm), red (IIIaF, 650 nm), and near-infrared (IVN, 850 nm) plates. Observers on POSS II included Cynthia Killin Brewer, D. Griffiths, W. McKinley,
J. Dave Mendenhall, K. Rykoski,
Jeffrey L. Phinney, and
Jean Mueller (who discovered over 100 supernovae by comparing the POSS I and POSS II plates). Mueller also discovered several comets and minor planets during the course of POSS II, and the bright Comet Wilson 1986 was discovered by then-graduate-student C. Wilson early in the survey. Until the completion of the Two Micron All Sky Survey (
2MASS), POSS II was the most extensive wide-field sky survey. When completed, the
Sloan Digital Sky Survey will surpass POSS I and POSS II in depth, although the POSS covers almost 2.5 times more area on the sky. POSS II also exists in digitized form (that is, the photographic plates were scanned) as part of the
Digitized Sky Survey (DSS).
QUEST The multi-year POSS projects were followed by the Palomar
Quasar Equatorial Survey Team (QUEST) Variability survey. This survey yielded results that were used by several projects, including the
Near-Earth Asteroid Tracking project. Another program that used the QUEST results discovered
90377 Sedna on 14 November 2003, and around 40
Kuiper belt objects. Other programs that share the camera are
Shri Kulkarni's search for
gamma-ray bursts (this takes advantage of the automated telescope's ability to react as soon as a burst is seen and take a series of snapshots of the fading burst),
Richard Ellis's search for
supernovae to test whether the
universe's expansion is accelerating or not, and
S. George Djorgovski's
quasar search. The camera for the Palomar QUEST Survey was a mosaic of 112
charge-coupled devices (CCDs) covering the whole (4° × 4°) field of view of the Schmidt telescope. At the time it was built, it was the largest CCD mosaic used in an astronomical camera. This instrument was used to produce The Big Picture, the largest astronomical photograph ever produced. The Big Picture is on display at
Griffith Observatory.
Current research Current research programs on the 200-inch Hale Telescope cover the range of the observable universe, including studies on near-Earth
asteroids, outer
Solar System planets,
Kuiper Belt objects,
star formation,
exoplanets,
black holes and
x-ray binaries,
supernovae and other
transient source followup, and
quasars/
Active Galactic Nuclei. The 48-inch Samuel Oschin Schmidt Telescope operates robotically, and supports a new
transient astronomy sky survey, the
Zwicky Transient Facility (ZTF).
integral field spectrograph. ==Visiting and public engagement==