Palomar–Leiden survey

The Palomar–Leiden survey (PLS) was a successful astronomical survey to study faint minor planets in a collaboration between the U.S Palomar Observatory and the Dutch Leiden Observatory, and resulted in the discovery of thousands of asteroids and many Jupiter trojans. The original PLS-survey took place from 1960 to 1970, and was continued by three Palomar–Leiden Trojan survey campaigns, launched in 1971, 1973 and 1977. Its principal investigators were the astronomers Ingrid and Cornelis van Houten at Leiden and Tom Gehrels at Palomar. For the period of the entire survey (1960–1977), the trio of astronomers are credited with the discovery of 4,619 minor planets,[1] which received their own provisional designation, such as 6344 P-L and 4835 T-1. PLS was one of the most productive minor planet surveys ever conducted: five new asteroid families were discovered,[2] gaps at 1:3 and 2:5 orbital resonances with Jupiter were revealed, and hundreds of photographic plates were taken with Palomar's Samuel Oschin telescope. These plates still are used today in their digitized form for the precovery of minor planets.

Summary

Between 4,000 and 5,000 minor planets were discovered during the Palomar–Leiden survey and its subsequent Trojan campaigns. Discoveries included asteroids from the inner- and outermost regions of the asteroid belt (Hungaria/Hilda) as well as a large number of trojans.[2]

Naming

The discovered bodies received a custom provisional designation. For example, the asteroid 2040 P-L is the 2040th minor planet in the original Palomar-Leiden survey, while the asteroid 4835 T-1 was discovered during the first Trojan-campaign. The majority of these bodies have since been assigned a number and many are already named. The custom identifier in the provisional designation P-L stands for Palomar–Leiden, named after Palomar Observatory and Leiden Observatory. For the three Trojan campaigns, the identifiers T-1, T-2 and T-3 stand for Trojan.[4]

Surveys

The PLS was originally intended as an extension of the Yerkes–McDonald asteroid survey (1950–1952), which was initiated by Dutch–American astronomer Gerard Kuiper. While this survey was limited to a magnitude of up to 16, PLS could study minor planets up to a visual magnitudes of 20. However, it only covered a portion of the ecliptic about the vernal equinox, with the target areas selected to minimize the number of background stars.

Photographic plates taken by Tom Gehrls at the Lunar and Planetary Laboratory in Arizona using the 48-inch Schmidt camera at Palomar Observatory. The orbital elements were computed at the Cincinnati Observatory, which was the siege of the Minor Planet Center at the time. All other aspects of the program were conducted at Leiden Observatory in the Netherlands.

Original PLS-survey

During September and October 1960, the first 130 photographic plates were taken, with each plate spanning 35.6 × 35.6 cm having and a limiting magnitude of 20.5. The observed region covered an area of 36° × 18°. The Zeiss blink comparator from the Heidelberg Observatory was adapted to perform blink comparison of the plates. This resulted in the discovery of a large number of asteroids; typically 200–400 per plate. A subset of these objects had sufficient data to allow orbital elements to be computed. The mean error in their positions was as small as 0.6, which corresponded to 0.009 mm on the plates. The resulting mean error in magnitude estimation was 0.19.[2]

Trojan surveys

The third Palomar–Leiden Trojan survey was performed in 1977, resulting in the discovery of 26 Jupiter trojans.[5] In total, there were three Trojan campaigns, designated T-1, T-2, and T-3, which discovered 3570 asteroids. Another small extension of the survey was reported in 1984, adding 170 new objects for a combined total of 2,403.[6]

See also

References

  1. "Minor Planet Discoverers". Minor Planet Center. 24 February 2016. Retrieved March 2016.
  2. 1 2 3 van Houten, C. J.; van Houten-Groeneveld, I.; Herget, P.; Gehrels, T. (October 1970). "The Palomar–Leiden survey of faint minor planets". Astronomy & Astrophysics Supplement Series 2 (5): 339. Bibcode:1970A&AS....2..339V.
  3. 1 2 3 4 "The 48-inch (1.2-meter) Samuel Oschin Telescope". Palomar Observatory – CALTECH. 14 August 2015. Retrieved January 2016.
  4. Long-lost 'Potentially Hazardous Asteroid' re-located (Asian News International)
  5. van Houten-Groeneveld, I.; van Houten, C. J.; Wisse-Schouten, M.; Bardwell, C.; Gehrels, T. (October 1989). "The 1977 Palomar–Leiden Trojan survey". Astronomy and Astrophysics 224 (1–2): 299–302. Bibcode:1989A&A...224..299V.
  6. van Houten, C. J.; Herget, P.; Marsden, B. G. (July 1984). "The Palomar–Leiden survey of faint minor planets - Conclusion" (PDF). Icarus 59: 1–19. Bibcode:1984Icar...59....1V. doi:10.1016/0019-1035(84)90051-4.
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