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(523622) 2007 TG422
Trans-Neptunian object
Trans-Neptunian object
| Field | Value | ||
|---|---|---|---|
| minorplanet | yes | ||
| name | (523622) | ||
| background | #C2E0FF | ||
| image | Planet_nine-etnos_now.png | ||
| caption | Orbital diagram of extreme trans-Neptunian objects, including , together with the hypothetical Planet Nine | ||
| discovery_ref | |||
| discoverer | {{Ubl | ||
| discovery_site | APO | ||
| discovered | 3 October 2007 | ||
| mpc_name | (523622) | ||
| alt_names | |||
| mp_category | {{Hlist | ||
| TNO<ref name | "jpldata" / | ||
| SDO<ref name | "Buie" / | ||
| ESDO<ref name | "johnstonsarchive-TNO-list" / | ||
| p-DP<ref name | "Brown-dplist" / | ||
| distant<ref name | "MPC-object" / | ||
| orbit_ref | |||
| epoch | 27 April 2019 (JD 2458600.5) | ||
| uncertainty | 1 | ||
| observation_arc | 13.14 yr (4,800 d) | ||
| aphelion | 910.01 AU | ||
| perihelion | 35.532 AU | ||
| semimajor | 472.77 AU | ||
| eccentricity | 0.9248 | ||
| period | 10279.78 yr (3,754,688 d) | ||
| mean_anomaly | 0.4774° | ||
| mean_motion | / day | ||
| inclination | 18.620° | ||
| asc_node | 112.84° | ||
| arg_peri | 285.54° | ||
| mean_diameter | {{Ubl | ||
| {{val | 222 | ul | km}} |
| {{val | 330 | u | km}} |
| albedo | 0.04 (est.) | ||
| spectral_type | {{Ubl | ||
| blue<ref name | "Brown-dplist"/ | ||
| B–I {{ | }} | ||
| B–R {{ | }} | ||
| R–I {{ | }} | ||
| V–R {{ | }} | ||
| magnitude | 22.4 | ||
| abs_magnitude | 6.5 |
| A. C. Becker
| A. W. Puckett
| J. Kubica
| TNO
| SDO
| ESDO
| p-DP
| distant
|
|
| blue
| B–I
| B–R
| R–I
| V–R
**** (provisional designation ****) is a trans-Neptunian object on a highly eccentric orbit in the scattered disc region at the edge of Solar System. Approximately 260 km in diameter, it was discovered on 3 October 2007 by astronomers Andrew Becker, Andrew Puckett and Jeremy Kubica during the Sloan Digital Sky Survey at Apache Point Observatory in New Mexico, United States. It belongs to a group of objects studied in 2014, which led to the proposition of the hypothetical Planet Nine.
Orbit and classification
orbits the Sun at a distance of 35.5–910 AU once every 10279 years and 9 months (3,754,688 days; semi-major axis of 473 AU). Its orbit has an exceptionally high eccentricity of 0.92 and an inclination of 19° with respect to the ecliptic.
is an extended scattered disc object, as its large aphelion distance is similar to that of the detached objects such as the sednoids (e.g. 90377 Sedna), its perihelion distance, however, is much lower and still just inside the gravitational influence of Neptune. The object came to perihelion in 2005 at a heliocentric distance of 35.5 AU, and is currently 37.9 AU from the Sun. It was in the constellation of Taurus until 2018, and came to opposition 29 November 2017. The body's observation arc begins at Apache Point in September 2007, one month prior to its official discovery observation. It has since been observed over a hundred times and has an orbital uncertainty of 1.
Unstable heliocentric solutions
| Year | ||
|---|---|---|
| (epoch) | Aphelion | |
| (AU) | Orbital | |
| period | ||
| years | ||
| 28 August 2007 | 932 | 10652 |
| 30 September 2012 | 1099 | 13512 |
| 16 February 2017 | 917 | 10399 |
| 26 June 2018 | 901 | 10143 |
| Stable | ||
| Barycentric | ||
| 2017 | 970 | 11300 |
Given the orbital eccentricity of this object, different epochs can generate quite different heliocentric unperturbed two-body best-fit solutions to the aphelion (maximum distance from the Sun) of this object.Read osculating orbit for more details about heliocentric unperturbed two-body solutions With a 2007 epoch the object had an approximate period of about 10,611 years with aphelion at 930 AU. But using a 2012 epoch shows a period of about 13,512 years with aphelion at 1099 AU. For objects at such high eccentricity, the Sun's barycentric coordinates are more stable than heliocentric coordinates. Using JPL Horizons with an observed orbital arc of 5 years, the barycentric orbital elements for epoch 2008-May-14 generate a semi-major axis of 503 AU and a period of 11,300 years. For comparison, Sedna has a barycentric semi-major axis of 506 AU and a period of 11,400 years. Both and take longer than Sedna and to orbit the Sun using barycentric coordinates.
Numbering and naming
This minor planet was numbered by the Minor Planet Center on 25 September 2018 (M.P.C. 111778). As of 2025, it has not been named.
Physical characteristics
is expected to have a low albedo (see below) due to its blue (neutral) color.
Diameter and albedo
According to Johnston's Archive and to Michael Brown, measures 222 and 331 kilometers in diameter, based on an absolute magnitude of 6.5 and an assumed standard albedo of 0.09 and 0.04 for the body's surface, respectively. As of 2018, no rotational lightcurve has been obtained from photometric observations. The body's rotation period, pole and shape remain unknown.
Comparison
Notes
References
References
- [https://archive.today/20121213135903/http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2007TG422 JPL Epoch 2012-Sep-30 solution]
This article was imported from Wikipedia and is available under the Creative Commons Attribution-ShareAlike 4.0 License. Content has been adapted to SurfDoc format. Original contributors can be found on the article history page.
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