 12P/Pons–Brooks photographed on 7 March 2024 | |
| Discovery | |
|---|---|
| Discovered by | Jean-Louis Pons William Robert Brooks |
| Discovery date | 12 July 1812 |
| Designations | |
| |
| Orbital characteristics[12][13] | |
| Epoch | 5 May 2025 (JD 2460800.5) |
| Observation arc | 680–1,780 years |
| Earliestprecovery date | |
| Number of observations | 8,322 |
| Aphelion | 33.669 AU |
| Perihelion | 0.781 AU |
| Semi-major axis | 17.225 AU |
| Eccentricity | 0.95466 |
| Orbital period | 71.491 years |
| Inclination | 74.190° |
| 255.86° | |
| Argument of periapsis | 199.01° |
| Mean anomaly | 5.223° |
| Last perihelion | 21 April 2024[10][a] |
| Next perihelion | 15 August 2095[11] |
| TJupiter | 0.598 |
| EarthMOID | 0.180 AU |
| JupiterMOID | 2.018 AU |
| Physical characteristics[12] | |
| Dimensions | 34±12 km[14] (upper limit) 2.2 km[15] (lower limit) |
| 57±1.0 hours[16][17] | |
| Comet total magnitude (M1) | 5.0 |
| Comet nuclear magnitude (M2) | 11.0 |
Comet Pons–Brooks is aperiodic comet with anorbital period of 71 years.[18] Comets with an orbital period of 20–200 years are referred to asHalley-type comets. It is one of the brightest known periodic comets, reaching anabsolute visual magnitude of about 5 in its approach to perihelion.[12] Comet Pons–Brooks was conclusively discovered atMarseilles Observatory in July 1812 byJean-Louis Pons, and on its next appearance in 1883 byWilliam Robert Brooks.[19] However it has been confirmed 12P/Pons–Brooks was observed before the 19th century.[2]
The lastperihelion passage was 21 April 2024,[10][a] with closest approach to Earth being 1.55 AU (232 million km) on 2 June 2024.[20] During the 2024 apparition the comet brightened to a magnitude of 3.8.[21]
Comet Pons–Brooks has been identified as a comet observed in 1385 and in 1457.[2] The 1385 apparition was very favourable and the comet was recorded by the Chinese inMing Shilu and was also mentioned in some European sources. A comet observed byPaolo dal Pozzo Toscanelli in January 1457 and mentioned in Chinese sources is also identified as comet12P/Pons–Brooks. In both apparitions the comet had magnitude 3 or brighter, not accounting for possible outbursts. It is possible that it was also a comet recorded in Chinese sources in September 245 CE.[2]
So-Yeon Park and Jong-Chul Chae suggested that Pons–Brooks was also the comet recorded in Asian sources in 1313 and 1668.[22] However, Maik Meyer argue that in the 1313 apparition, the comet would have been difficult to observe, being dim and close to the Sun, while the suggested position in Gemini contradicts the calculated location of comet Pons–Brooks in Aries.[2] The March 1668 comet described by Koreans is probably the bright sungrazing comet observed by Europeans, whose orbit is no way compatible with that of comet 12P/Pons–Brooks.[2]
Comet Pons–Brooks was discovered on 12 July 1812, byJean-Louis Pons. Independently, this comet was later found by Vincent Wisniewski on 1 August, andAlexis Bouvard on 2 August the same year. The comet was spotted with the naked eye on 13 August and by the end of the month a tail measuring 2 degrees in length was reported.[6] Shortly after its initial discovery it was found to have an orbital period of about 70 years with an error of about 5 years.Johann Franz Encke determined a definitive orbit with a period of 70.68 years. This orbit was used to generate an ephemeris for the 1883–1884 return.[23]
On 2 September 1883 a (faint) comet was accidentally discovered byWilliam Robert Brooks and later identified with the comet of 1812.[7] An outburst was observed on 21–23 September 1883, as the comet brightened frommagnitude 10–11 to 8–8.5, and its appearance changed from diffuse to star-like.[24]
The comet became visible with naked eye in 20 November and brightened up to magnitude 3. The comet was reported to experience outbursts on 1 January and 19 January.[23] This year it traveled from Scheat and Markab in western Pegasus, 13 January 1884; southward (through Pisces) to reach perihelion belowIota andBeta Ceti (~α =0h,δ = –10°) around 24 January.[25] It was last seen in June 1884.[23]
The comet was recovered on 20 June 1953 when it was 4.5 AU (670 million km) from the Sun.[8] The comet outburst frommagnitude 18 to magnitude 13 on 1 July 1953. Another outburst occurred in March 1954, the fourth observed in that apparition.[26] On 23 April the comet was estimated magnitude 6.4, and its tail was half a degree long.[26] Pons–Brooks came to perihelion on 22 May 1954 when it was1.7 AU from Earth.[27] After perihelion it became better visible from the south hemisphere. It was last observed on 4 September 1954 when it was 1.9 AU (280 million km) from the Sun.[26] On 10 December 1954, themeteor stream of comet Pons–Brooks passed about 0.12 AU (18 million km) from Earth, resulting in potential meteors impacting Earth's atmosphere at relative velocity 45 km/s.[28]
On 10 June 2020 Pons–Brooks was recovered atapparent magnitude 23 by theLowell Discovery Telescope when the comet was beyond the orbit ofSaturn at 11.9 AU (1.78 billion km) from the Sun,[29][14] with the uncertainty in the comet's heliocentric distance being roughly± 10 000 km at the time. The comet underwent 14 well-documented outbursts, observed between 13 June 2023, and April 2024, at heliocentric distances ranging from 4.26 au to 0.85 au.[30][31][32]After perihelion, two additional outbursts were observed in summer 2024, at heliocentric distances of 1.20 AU and 2.26 AU. The coma had expanded to a diameter of 600,000 km (370,000 mi) by 5 August, having an expansion rate of 220 m/s. Although initially spherical, the coma became asymmetrical due to the effects ofradiation pressure on the dust.[33] The comet outburst again on 5 October 2023 from magnitude 15 to magnitude 11 (brightening by ~40×).[34] Two more outbursts were recorded on 1 November and 14 November, with the comet brightening to apparent magnitude 9.3 after the later.[35]Outbursts were also observed on 14 December[36]and 18 January 2024.[37]
| Date | Start mag | Outburst mag | Brightening | Sun distance (AU) | Solar elongation |
|---|---|---|---|---|---|
| 2023-07-20[31] | 16 | 11 | 100× | 3.9 | 101° |
| 2023-10-05[34] | 15 | 11 | 40× | 3.1 | 80° |
By mid February the comet had brightened to magnitude 7.5 and had developed an ion tail about two degrees long that featured jets and filaments.[38] A minor outburst took place on 29 February, with the comet brightening by 0.9 magnitudes.[39][40] By 7 March the comet had brightened to magnitude 5.5 and was located about 10 degrees from theAndromeda Galaxy.[41] In the following days the comet was reported to be visible bynaked eye and featured a tail about 5 degrees long.[39] Another outburst occurred on April 3, with the comet brightening to a magnitude of about 3.8.[42] There was asolar eclipse on 8 April 2024 with the comet 25 degrees from the Sun.[43]
TheThai National Radio Telescope successfully detectedOH maser emissions from the comet in the 1665 and 1667MHz by late March 2024, showing fluctuations in the water production as it neared perihelion.[44] The perihelion passage was on 21 April 2024 at 0.781 AU (116.8 million km) from the Sun with a velocity with respect to the Sun of 47.1 km/s.[10] The closest approach to Earth was 42 days later on 2 June 2024 when it was 1.55 AU (232 million km) from Earth.[20] Near perihelion passage the comet was expected to brighten to about magnitude 4.5 (around 400× brighter than the July 2023 outburst).[27] In early June Earth crossed the comet's orbital plane, resulting to ananti-tail becoming visible.[45]
| Date | Distance (AU) | Solar elongation |
|---|---|---|
| 1812-Sep-21[46] | 1.22 AU (183 million km) | 40° |
| 1884-Jan-09[23] | 0.63 AU (94 million km) | 58° |
| 1954-Jun-29[47] | 1.63 AU (244 million km) | 38° |
| 2024-Jun-02[20] | 1.55 AU (232 million km) | 45° |
| 2095-Aug-31[48] | 1.50 AU (224 million km) | 32° |
Libration is locked at a 1:6 resonance with Jupiter.[49] TheTisserand invariant with respect to Jupiter (J) is 0.60.[12][49] Aphelion (furthest point from the Sun) is just beyond the orbit ofNeptune at 33.6 AU (5.03 billion km).
With a steeporbital inclination of 74.2° this comet does not spend a lot of time near theecliptic. TheJet Propulsion Laboratory's (JPL) website shows that between the years 1900 and 2200, the comet made a relatively close approach withSaturn on 29 July 1957. At that point it passed within 1.6 AU (240 million km) of the giant planet's influence, though even this approach had negligible effect.[12] The comet's orbit appears to be stable between 1740 and 2167, with no strongperturbations by any of the planets.[23][49]
Before the 2020 recovery, while the last observation was in 1954, Kinoshita calculated that the comet would come to a future perihelion passage (closest approach to the Sun) on 10 August 2095.[50] Accounting for observations in 2020–2023, the nominal time of perihelion passage is now calculated to be 15 August 2095.[11]
Kirkwood in 1884 noticed that Pons–Brooks shares elements with122P/de Vico. He suggested that the latter had calved off Pons–Brooks some centuries prior.[51] Later he identified the two comets' capture into their elliptical orbits (or their parent body's capture) with their shared aphelion close toNeptune in 991 CE.[52]
Other comets with a similar orbital period include13P/Olbers,23P/Brorsen–Metcalf, and1P/Halley.
The orbital evolution of Pons–Brooks will remain stable in the next100000 years, although there is a 0.5 percent probability that non-gravitational perturbations will cause the comet to transition into a retrograde orbit around the Sun, or even become asungrazing comet, in the same timeframe.[53]
.jpg)
Upon being recovered in 2020,Quanzhi Ye estimated that the nucleus of Pons–Brooks is around17.0±6.0 km in radius, assuming a geometric albedo of 0.04 and an absolute magnitude of 13.4.[14] This would make Pons–Brooks roughly half the size ofHale–Bopp, which is estimated to be 30 km (19 mi) in radius.[54] However, the comet was already active at the time it was photometrically measured, thus this represents its upper limit instead.[55]
David Jewitt later revised the nucleus radius to 5.6 km (3.5 mi), assuming that the outburst power was around 4.3×1010 watts, which corresponds to the solar energy absorbed by a hemisphere surface of 200 km2 (77 sq mi).[55] Based on the water production rate, Li et al calculated a minimum active surface of 70 km2 (27 sq mi), which corresponds to a nuclear radius of 2.2 km (1.4 mi), which represents the lower limit for the nucleus size.[15] Based on the various size estimates, the comet has a mass of around2×1013 to1016 kg, assuming a density of 500 kg/m3.[56]
Observations conducted at theLowell Observatory between January and February 2024 revealed that the comet rotates once every57±1.0 hours, which was based on the morphology of its coma activity.[16]
12P/Pons–Brooks is hypothesized to be the parent body of the weak December κ Draconidsmeteor shower (#336) that is active from about 29 November to 13 December and generates less than 2 meteors/hour. This is the most abundant of the meteor showers predicted to be related to the comet. One more nighttime meteor shower has been tentatively associated with 12P/Pons–Brooks, the northern June Aquilids, although most probably isn't the parent body.[57] Comet Pons–Brooks could also be the source of a meteor shower onVenus, along with periodic comets122P/de Vico and27P/Crommelin.[58][59]
(Perihelion occurs when rdot flips from negative to positive.)
(Perihelion occurs when rdot flips from negative to positive.)
(Closest Earth approach occurs when deldot flips from negative to positive.)
(Closest Earth approach occurs when deldot flips from negative to positive.)
(Closest Earth approach occurs when deldot flips from negative to positive.)
(Closest Earth approach occurs when deldot flips from negative to positive.)
| Numbered comets | ||
|---|---|---|
| Previous 11P/Tempel–Swift–LINEAR | 12P/Pons–Brooks | Next 13P/Olbers |
2024 in space | |||
|---|---|---|---|
Space probe launches |
|  | |
| Impact events | |||
| SelectedNEOs | |||
| Discoveries |
| ||
| Comets | |||
.png)
