323P/SOHO
{{Short description|Sungrazing comet}}
{{Infobox comet
| name = 323P/SOHO
| image = Comet 323P SOHO by HST in March 2021 - Ajac6dcbf2 hr.jpg
| caption = Comet 323P SOHO by Hubble Space Telescope in March 2021
| discoverer = SOHO
| discoverery_site =
| discovery_date = 12 March 2004
| mpc_name =
| designations = P/1999 X3, P/2004 E2, P/2008 K10, P/2012 Q2
| epoch = 12 February 2021
| observation_arc =
| earliest_precovery_date = 12 December 1999
| obs =
| orbit =
| aphelion = 5.125 AU
| perihelion = 0.039 AU
| semimajor = 2.582 AU
| semiminor =
| orbital_circ =
| eccentricity = 0.9848
| period = 4.15 years
| avg_speed =
| max_speed =
| min_speed =
| inclination = 5.37°
| asc_node = 324.23°
| arg_peri = 353.17°
| long_peri =
| tjup =
| Earth_moid = 0.022 AU
| Jupiter_moid = 0.221 AU
| physical_ref = {{r|jpl|Hui_2022|Knight_2023}}
| mean_diameter = {{val|172|6|u=m}}
| rotation = 0.522 hours
| spectral_type = (V–R) {{=}} {{val|0.13|0.09}}
| M1 = 23.6
| M2 =
| magnitude =
| last_p = 17 January 2021
| next_p = 14 March 2025{{cite web
|title=Horizons Batch for 323P/SOHO (#90001277) on 2025-Mar-14
|publisher=JPL Horizons
|type=Perihelion occurs when rdot flips from negative to positive
|url=https://ssd.jpl.nasa.gov/horizons_batch.cgi?batch=1&COMMAND=%27DES%3D323P%3BCAP%27&START_TIME=%272025-Mar-12%27&STOP_TIME=%272025-Mar-16%27&STEP_SIZE=%271%20hours%27&QUANTITIES=%279,19,22,23%27
|accessdate=2023-08-18}} (JPLK212/6 Soln.date: 2022-Jul-06)
}}
323P/SOHO is a periodic comet with an orbital period of 4.15 years discovered in images obtained by the Solar and Heliospheric Observatory (SOHO). It is considered to be a sungrazing comet due to its perihelion being very close to the Sun.{{cite book |last1=Pavlov |first1=S. |last2=Medvedev |first2=Yu. |title=Astronomy at the Epoch of Multimessenger Studies: Proceedings of the VAK-2021 conference, Aug 23–28, 2021 |chapter=Determination of sunskirters' orbits on the example of comet 323P/SOHO |journal=|date=22 February 2022 |pages=105–108 |doi=10.51194/VAK2021.2022.1.1.028 |bibcode=2022aems.conf..105P |isbn=978-5-8037-0848-3 |s2cid=247178307 }} 323P/SOHO has the smallest perihelion of all numbered comets.{{cite web |title=Small-Body Database Query, numbered comets with q < 0.2 au |url=https://ssd.jpl.nasa.gov/tools/sbdb_query.html#!#results |website=ssd.jpl.nasa.gov |access-date=26 March 2023}}
Observational history
The comet was first noticed by Rainer Kracht in images obtained on 12 March 2004, getting the name C/2004 E2.{{cite journal |last1=Green |first1=Daniel |title=IAUC 8982: C/2008 K3-K11, C/2008 L4 |journal=Central Bureau for Astronomical Telegrams |date=26 September 2008 |url=http://www.cbat.eps.harvard.edu/iauc/08900/08982.html |access-date=26 March 2023}} In 2006 it was published that a very faint comet was visible in SOHO images obtained on 12 December 1999.{{cite journal |last1=Green |first1=Daniel |title=IAUC 8735: COMET P/2006 HR_30 (SIDING SPRING); C/1999 V5, C/1999 X3 |journal=Central Bureau for Astronomical Telegrams |date=3 August 2006 |url=http://www.cbat.eps.harvard.edu/iauc/08700/08735.html |access-date=26 March 2023}} R. Kracht identified these two objects as being the same comet that had been observed by SOHO on 30 May 2008, a link subsequently confirmed by Brian G. Marsden.
In late December 2020, the object was recovered at Subaru showing no cometary features on its way to perihelion. However, in postperihelion observations, it developed a long narrow tail mimicking a disintegrated comet. The ejecta, composed of at least millimeter-sized dust with a power law size distribution index of 3.2 ± 0.2, was impulsively produced shortly after the perihelion passage, during which ≳0.1%–10% of the nucleus mass was shed due to excessive thermal stress and rotational disruption. Two fragments of ~20 m in radius (assuming a geometric albedo of 0.15) were seen in Hubble Space Telescope observations from early March 2021.{{cite journal |last1=Hui |first1=Man-To |last2=Tholen |first2=David J. |last3=Kracht |first3=Rainer |last4=Chang |first4=Chan-Kao |last5=Wiegert |first5=Paul A. |last6=Ye |first6=Quan-Zhi |last7=Mutchler |first7=Max |title=The Lingering Death of Periodic Near-Sun Comet 323P/SOHO |journal=The Astronomical Journal |date=1 July 2022 |volume=164 |issue=1 |pages=1 |doi=10.3847/1538-3881/ac6dcb|arxiv=2203.02999 |bibcode=2022AJ....164....1H |s2cid=247291974 |doi-access=free }} 50px This article contains quotations from this source, which is available under the [https://creativecommons.org/licenses/by/4.0/ Creative Commons Attribution 4.0 Unported (CC BY 4.0)] license.
Physical characteristics
The comet has a convex shaped nucleus, based on its light curve, with approximate axis ratios of R2/R1 ≈ 0.8 and R3/R1 ≈ 0.7 and an effective radius of 86 ± 3 m (assuming a geometric albedo of 0.15). The comet has a rotation period of 0.522 hours, which is the shortest for known comets in the Solar System. The next fastest rotating comet is 322P/SOHO, with a period of 2.8 hours. The spin axis is oriented toward the southern ecliptic hemisphere.
On 13 February 2021, the g − r color turned redder as the aperture radius grew, suggesting that the dust ejecta was redder than the nucleus. However, on March 3, the trend became the opposite, which means that the nucleus was bluer than the dust ejecta. As for the r − i color, no strong spatial variation in the color measurements was noticed, indicative of similar colors between the dust ejecta and the nucleus, which is also consistent with the annular aperture measurements. The change of the color was possibly related to the mass loss around perihelion and intense solar heating.
Orbit
323P approaches the Sun during perihelion at a distance of {{convert|0.04|AU|e6km e6mi|abbr=unit|lk=off}} or ~8.4 solar radii, closer than any other numbered comet. Its orbital period is 4.15 years. The comet does not belong to any known group of near-Sun comets. 323P/SOHO was originally a Jupiter family comet, but its perihelion distance has been generically decreasing over the past two millennia. 323P has a likelihood of 99.7% to collide with the Sun within the next two millennia.
References
{{reflist|refs=
| author1= M. M. Knight
| author2= R. Kokotanekova
| author3= N. H. Samarasinha
| title= Physical and Surface Properties of Comet Nuclei from Remote Observations
| year= 2023
| arxiv= 2304.09309
| class= astro-ph.EP }}
}}