13P/Olbers
Comet Olbers photographed by Don Heffernan on 11 August 2024 | |
| Discovery | |
|---|---|
| Discovered by | Heinrich Olbers |
| Discovery date | 6 March 1815 |
| Designations | |
| |
| |
| Orbital characteristics[3][4] | |
| Epoch | 21 November 2025 (JD 2461000.5) |
| Observation arc | 210.40 years |
| Number of observations | 2,619 |
| Aphelion | 32.676 AU |
| Perihelion | 1.175 AU |
| Semi-major axis | 16.926 AU |
| Eccentricity | 0.93056 |
| Orbital period | 69.634 years |
| Inclination | 44.664° |
| 85.846° | |
| Argument of periapsis | 64.425° |
| Mean anomaly | 7.203° |
| Last perihelion | 30 June 2024[1] |
| Next perihelion | 20 March 2094[2] |
| TJupiter | 1.251 |
| Earth MOID | 0.471 AU |
| Jupiter MOID | 0.713 AU |
| Physical characteristics[3] | |
| Comet total magnitude (M1) | 6.9 |
| 6.0 (2024 apparition)[5] | |
13P/Olbers is a periodic comet with an orbital period of 69 years. It fits the classical definition of a Halley-type comet with a period between 20 and 200 years.[3] The comet last passed perihelion 30 June 2024 and it was previously seen in 1956. The next perihelion is in 2094. It is the third of three comets discovered by German astronomer, Heinrich Olbers.[a]
Observational history
Discovery
Heinrich Wilhelm Matthias Olbers discovered the comet on 6 March 1815 and described it as small. The comet came to perihelion on 26 April 1815 and reached an apparent magnitude of about 5,[6] and was faintly visible by naked eye.[7] Its orbit was first computed by Carl Friedrich Gauss on March 31 as parabolic, and Friedrich Bessel calculated an orbital period of 73.9 years using observations from June. Calculations by other astronomers during that era resulted anywhere between 72 and 77 years.[6] Modern solutions give an orbital period of 74.9 years for the 1815 epoch.[4]
1887
| Orbital period at different epochs[8] | |||||||
| Epoch | Orbital period (years) | ||||||
|---|---|---|---|---|---|---|---|
| 1887 | 72.37 | ||||||
| 1956 | 69.54 | ||||||
| 2024 | 69.25 | ||||||
| 2094 | 70.72 | ||||||
There were unsuccessful searches for the comet throughout 1887, until it was accidentally found by William Robert Brooks on 25 August 1887.[6] He described as an easy object to see through a 9-inch reflector, with a brightish nucleus and a faint tail; it continued to brighten for a few days after passing perihelion.[9] The comet brightened to an apparent magnitude of about 9.[7] On 28 July 1887 the comet passed 0.081 AU (12.1 million km) from Mars and then passed perihelion on 8 October 1887.[8]
1956
The comet was recovered on 4 January 1956 by Antonín Mrkos. The comet was then located in Eridanus and its apparent magnitude was estimated to be 16. He then found the comet in plates obtained by the McDonald Observatory on 12 November 1955.[7] The comet passed perihelion on 19 June 1956 and reached an apparent magnitude of 6.5, while its tail was about one degree long.[6]
2024
The comet was recovered on 24 August 2023 by Alan Hale with the Las Cumbres Observatory at Siding Spring, and then additional pre-recovery images from August 13 were located. The comet then had an estimated apparent magnitude of about 22.[8][4] On 16 November 2023 the comet came to opposition 139 degrees from the Sun. On 14 January 2024 the comet had an estimated magnitude of 15.3, was reported to have a strongly condensed coma measuring 0.9 arcminutes across and a faint tail one arcminute. By 10 March 2024 the comet had brightened to a magnitude of 11.4 and the coma was 4 arcminutes across. The comet was observed visually on April 12 to have a magnitude of 9.2, being a magnitude brighter than the ephemeris.[10] Measurements from the SWAN instrument aboard SOHO indicated that it reached its maximum water production rate of 1.1×1029 sec-1 on 3 June 2024,[11] and although irregular and scattered compared to 12P/Pons–Brooks, it did generally increased as it got closer to the Sun.[11] It came to perihelion on 30 June 2024,[1] when it was 1.18 AU (177 million km) from the Sun and 1.94 AU (290 million km) from Earth.[1] It was expected to brighten to about apparent magnitude 7−8 but peaked at 6–7.[12]
| Date | Distance (AU) | Solar elongation |
|---|---|---|
| 2024-Jul-20[13] | 1.895 AU (283.5 million km) | 35° |
| 2094-Jan-09[14] | 0.676 AU (101.1 million km) | 134° |
2094
Before the 2023 recovery, while the last observation was in 1956, Kinoshita calculated that the comet would come to a future perihelion passage (closest approach to the Sun) on 22 March 2094.[15] Accounting for observations in 2023–4, the nominal time of perihelion passage is now calculated to be 20 March 2094.[2]
Meteor showers
There is some speculation that 13P/Olbers has an associated annual meteor shower on Mars coming from the direction of Beta Canis Majoris.[16] The minimum orbit intersection distance of the orbits of comet Olbers and Mars is 0.0266 AU (3.98 million km) and the meteors impact the planet with a velocity of 27 km/s. An intersection distance of less than 0.1 AU and an impact speed high enough for the meteors to become ablaze are considered good predictors for a potential meteor shower.[17]
Notes
- ^ Olbers had previously discovered C/1780 U1 (Montaigne–Olbers) and C/1796 F1 (Olbers)
References
- ^ a b c "Horizons Batch for 13P/Olbers (90000226) on 2024-Jun-30" (Perihelion occurs when rdot flips from negative to positive). JPL Horizons. Archived from the original on 15 June 2022. Retrieved 28 August 2023. (JPL#11 Soln.date: 2023-Aug-28)
- ^ a b "Horizons Batch for 13P/Olbers (90000227) for March 2094" (Perihelion occurs when rdot flips from negative to positive). JPL Horizons. Archived from the original on 29 August 2023. Retrieved 25 June 2024.
- ^ a b c "13P/Olbers – JPL Small-Body Database Lookup". ssd.jpl.nasa.gov. Jet Propulsion Laboratory. Retrieved 26 July 2012.
- ^ a b c "13P/Olbers Orbit". Minor Planet Center. Retrieved 29 August 2023.
- ^ "Observation list for 13P/Olbers". COBS – Comet OBServation database. Retrieved 21 February 2026.
- ^ a b c d G. W. Kronk (2001–2005). "13P/Olbers". Cometography.com. Retrieved 22 February 2012.
- ^ a b c E. Roemer (April 1956). "Comet Notes". Publications of the Astronomical Society of the Pacific. 68 (401): 171–172. Bibcode:1956PASP...68..171R. doi:10.1086/126910. ISSN 0004-6280. JSTOR 40673045.
- ^ a b c A. Hale; S. Nakano; T. Kobayashi (28 August 2023). D. W. Green (ed.). "Comet 13P/Olbers". Central Bureau for Astronomical Telegrams. 5289: 1. Bibcode:2023CBET.5289....1H.
- ^ W. R. Brooks (1888). "The Olbers–Brooks Comet". The Observatory. 11: 90–91. Bibcode:1888Obs....11...90B. ISSN 0029-7704.
- ^ Hidetaka Sato; Hirohisa Sato; T. Ikemura; et al. (29 April 2024). D. W. Green (ed.). "Comet 13P/Olbers". Central Bureau for Astronomical Telegrams. 5389: 1. Bibcode:2024CBET.5389....1S.
- ^ a b M. R. Combi; T. Mäkinen; J. L. Bertaux; et al. (2025). "Activity of Halley-type Comets 12P/Pons–Brooks and 13P/Olbers from SOHO/SWAN Observations". The Planetary Science Journal. 6 (12): 306–317. Bibcode:2025PSJ.....6..306C. doi:10.3847/PSJ/ae2475.
- ^ S. Yoshida (31 July 2004). "13P/Olbers". www.aerith.net. Retrieved 24 February 2010.
- ^ "Closest Approach to Earth around 20 July 2024" (Closest Earth approach occurs when deldot flips from negative to positive). JPL Horizons. Retrieved 28 August 2023.
- ^ "Closest Approach to Earth around 9 January 2094" (Closest Earth approach occurs when deldot flips from negative to positive). JPL Horizons. Retrieved 28 August 2023.
- ^ K. Kinoshita (25 February 2003). "13P/Olbers past, present and future orbital elements". Comet Orbit. Retrieved 28 August 2023.
- ^ "Meteor Showers And Their Parent Bodies". star.arm.ac.uk. Archived from the original (JPEG) on 3 October 2008. Retrieved 30 December 2006.
- ^ A. A. Christou (2004). "Predicting Martian and Venusian Meteor Shower Activity" (PDF). Earth, Moon & Planets. 95 (1–4): 425–431. Bibcode:2004EM&P...95..425C. doi:10.1007/s11038-005-9023-0.
External links
- 13P/Olbers at the JPL Small-Body Database
- 13P/Olbers at Gary W. Kronk's Cometography
- 13P/Olbers at Kazuo Kinoshita's Comets
- 13P/Olbers at Seiichi Yoshida's website