(208996) 2003 AZ84
{{Short description|Plutino}}
{{Use dmy dates|date=October 2019}}
{{DISPLAYTITLE:{{mp|(208996) 2003 AZ|84}}}}
{{Infobox planet
| minorplanet = yes
| name = (208996) {{mp|2003 AZ|84}}
| background = #C2E0FF
| image = 2003AZ84_Hubble.png
| image_scale =
| caption = {{mp|2003 AZ|84}} and its possible satellite, imaged by the Hubble Space Telescope on 2 December 2005.
| discovered = 13 January 2003
| discoverer = C. Trujillo
M. E. Brown
| discovery_site = NEAT–Palomar Obs.
| mpc_name = {{mp|2003 AZ|84}}
| pronounced =
| mp_category = TNO{{·}}plutino{{·}}distant
| epoch = 27 April 2019 (JD 2458600.5)
| uncertainty = 3
| observation_arc = {{nowrap|20.96 yr (7,654 days)}}
| earliest_precovery_date = 19 March 1996
| aphelion = 46.555 AU
| perihelion = 32.170 AU
| time_periastron = ≈ 27 March 2107
±2.2 days
| semimajor = 39.362 AU
| eccentricity = 0.183
| period = 246.96 yr (90,202 days)
| mean_anomaly = 232.611°
| mean_motion = {{Deg2DMS|0.003991|sup=ms}} / day
| inclination = 13.596°
| asc_node = 252.202°
| arg_peri = 15.211°
| satellites = 1 {{small|(diameter: 72 km)}}
{{small|(unrecovered)}}
| dimensions =({{val|940|40}}) × ({{val|766|20}}) × ({{val|490|16}}) km {{small|(derived from the unlikely assumption of hydrostatic equilibrium)}}
| mean_diameter = {{val|772|12|u=km}} {{small|(assuming HE)}}
723 km (for albedo 0.097)
| density = {{val|0.87|0.01|u=g/cm3}} {{small|(assuming HE)}}
{{val|0.76|u=g/cm3}}
| mass = {{val|210|e=18|u=kg}} {{small|(derived from )}}
{{val|150|e=18|u=kg}} {{small|(derived from )}}
| rotation = {{val|6.7874|0.0002}} h
| albedo = {{val|0.097|0.009}} {{small|(assuming HE)}}
0.097
| magnitude = 20.3 {{small|(opposition)}}
| abs_magnitude = {{val|3.760|0.058}} {{small|(V)}}
{{val|3.537|0.053}} {{small|(R)}}
}}
{{mp|(208996) 2003 AZ|84}} (provisional designation {{mp|2003 AZ|84}}) is a trans-Neptunian object with a possible moon located in the outer regions of the Solar System. It is approximately 940 kilometers across its longest axis, as it has an elongated shape. It belongs to the plutinos – a group of minor planets named after its largest member Pluto – as it orbits in a 2:3 resonance with Neptune in the Kuiper belt. It is the third-largest known plutino, after {{dp|Pluto}} and {{dp|Orcus}}. It was discovered on 13 January 2003, by American astronomers Chad Trujillo and Michael Brown during the NEAT survey using the Samuel Oschin telescope at Palomar Observatory.
Though elongated in shape, {{mp|2003 AZ|84}} displays a small lightcurve amplitude due to its rotation axis being oriented nearly pole-on; the variability is mainly caused by albedo features on its surface.
The low density of this and many other mid-sized TNOs implies that they have never compressed into fully solid bodies, let alone differentiated or collapsed into hydrostatic equilibrium, and so are highly unlikely to be dwarf planets.
Physical characteristics
The Spitzer Space Telescope has estimated its size at {{val|686|96|u=km}}, while an analysis of a combination of Spitzer and Herschel data yielded a slightly higher estimate of {{val|727.0|61.9|-66.5|u=km}}. These results are in agreement with each other.{{efn|The results of the previous observation of {{mp|(208996) 2003 AZ|84}} by the Herschel were reported in 2010. They were obtained using chop/nod technique yielding {{val|910|60|u=km}}. The difference can be explained by the large light-curve amplitude of {{mp|(208996) 2003 AZ|84}} and the fact that in 2010 the radiation from it was measured at one particular time, while 2012 determination was based on the time-averaged data.}}
The large size of {{mp|2003 AZ|84}} suggests the possibility of it being a dwarf planet. However, if one assumes it to be in hydrostatic equilibrium, as it would be if it were a dwarf planet, the density that results is too low for it to be solid, and hence it could not be a dwarf planet. However, its density cannot be directly calculated because its mass is unknown, due to its satellite not having been recovered.
In 2017, stellar occultations and data from its rotational lightcurve suggested that {{mp|2003 AZ|84}} had an elongated shape, presumably due to its rapid rotation rate of 6.71 hours, similar to Haumea and Varuna. That would give {{mp|2003 AZ|84}} approximate dimensions of 940×766×490 km, with its longest axis nearly twice as long as its polar axis.
A stellar occultation in 2010 had measured a single chord of {{val|573|21|u=km}}.
The spectra and colors of {{mp|2003 AZ|84}} are very similar to those of Orcus, another large object in 2:3 resonance with Neptune. Both bodies have a flat featureless spectrum in the visible and moderately strong water ice absorption bands in the near-infrared, although {{mp|2003 AZ|84}} has a lower albedo. Both bodies also have a weak absorption band near 2.3 μm, which may be caused by ammonia hydrate or methane ice.
Orbit and rotation
{{mp|2003 AZ|84}} orbits the Sun at an average distance of 39.4 astronomical units (AU) and completes a full orbit in 247 years. It is in a 2:3 orbital resonance with Neptune; {{mp|2003 AZ|84}} completes two orbits around the Sun for every three orbits completed by Neptune. Since it is in a 2:3 resonance with Neptune, {{mp|2003 AZ|84}} is classified as a plutino. Its orbit is inclined to the ecliptic by 13.6 degrees. The orbit of {{mp|2003 AZ|84}} is moderately eccentric, with an orbital eccentricity of 0.183. {{as of|2019|7}}, {{mp|2003 AZ|84}} is currently located {{convert|44.43|AU|km|lk=in|abbr=on}} from the Sun. It had approached its aphelion (furthest distance from the Sun) in 1982 and will come to its perihelion (closest distance to the Sun) in 2107. Simulations by the Deep Ecliptic Survey show that over the next 10 million years {{mp|2003 AZ|84}} will not come closer (qmin) than 31.6 AU from the Sun (it will stay farther away than Neptune).
The rotation period of this minor planet was first measured by Scott Sheppard in 2003. Light curves obtained by Sheppard at the University of Hawaiʻi's 2.2-meter telescope gave an ambiguous rotation period of either 6.71 or 13.42 hours, with a brightness variation of 0.14 magnitudes ({{small|U=2}}). The shorter rotation period refers to the single-peaked solution, expected if the brightness variations resulted from albedo spots. The longer rotation period is for a double-peaked solution, more consistent with an elongated shape that is rotating edge-on.
{{Multiple image
| align = center
| image1 = Plutino-orbits_with_2017OF69.png
| width1 = 200
| caption1 = Polar view of {{mp|2003 AZ|84}}'s orbit (yellow) along with other plutinos.
| image2 = 2003AZ84-orbit.png
| width2 = 500
| caption2 = Orbit of {{mp|2003 AZ|84}} (blue) compared to the orbits of Pluto and Neptune.}}
Satellite
{{Infobox planet
| image =
| caption =
| name =
| discoverer = Brown et al.
| discovered = 2005
| mpc_name =
| pronounced =
| note =
| periapsis =
| apoapsis =
| semimajor = {{val|7200|300|u=km}}
| eccentricity =
| period = {{val|12|u=d}} (prograde)
| inclination =
| satellite_of = 2003 AZ84
| mean_radius = {{val|36|6|u=km}}
| spectral_type =
| magnitude =
| abs_magnitude =
}}
Using observations with the Hubble Space Telescope, the discovery of a satellite of {{mp|2003 AZ|84}} was reported in IAUC 8812 on 22 February 2007. The object was measured with a separation of 0.22 arcsec and an apparent magnitude difference of 5.0. {{As of|2012}}, attempts to recover the satellite have failed. The unrecovered satellite is estimated to be about {{val|72|12|u=km}} in diameter.
Notes
{{notelist|refs=
}}
References
{{reflist|1=30em|refs=
{{cite web | url=https://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2208996 | title=JPL Small-Body Database Browser: 208996 (2003 AZ84) | publisher=Jet Propulsion Laboratory | accessdate=9 February 2017 | type=2016-03-03 last obs.}}
{{cite web | url=https://twitter.com/plutokiller/status/165400568729305088 | title=After a bit more than 3 hrs on 2003AZ84 still no obvious moon. | publisher=Twitter | date=3 February 2012 | accessdate=3 February 2012 | last=Brown | first=Michael E. | authorlink=Michael E. Brown}}
{{cite book | arxiv=astro-ph/0702538 | chapter=Physical Properties of Kuiper Belt and Centaur Objects: Constraints from Spitzer Space Telescope | chapter-url=http://www.lpi.usra.edu/books/ssbn2008/7017.pdf | display-authors=6 | editor1-first=M. Antonietta | editor2-first=Hermann | editor3-first=Dale P. | editor1-last=Barucci | editor2-last=Boehnhardt | editor3-last=Cruikshank | first1=John | title=The Solar System Beyond Neptune | publisher=University of Arizona Press | first2=Will | last1=Stansberry | last2=Grundy | last3=Brown | first3=Mike | last4=Cruikshank | first4=Dale | last5=Spencer | first5=John | last6=Trilling | first6=David | last7=Margot | first7=Jean-Luc | bibcode=2008ssbn.book..161S | year=2008 | pages=161–179 | isbn=978-0-8165-2755-7}}
{{cite web | url=http://ssd.jpl.nasa.gov/horizons.cgi?find_body=1&body_group=sb&sstr=2003AZ84 | title=Horizon Online Ephemeris System | publisher=Jet Propulsion Laboratory | accessdate=6 July 2019}}
[http://ssd.jpl.nasa.gov/horizons.cgi?find_body=1&body_group=sb&sstr=208996 JPL Horizons] Observer Location: @sun (Perihelion occurs when deldot changes from negative to positive. Uncertainty in time of perihelion is 3-sigma.)
}}
External links
- [http://andrew-lowe.ca/2003az84.htm (208996) 2003 AZ84 Precovery Images]
- [https://www.minorplanetcenter.net/iau/lists/TNOs.html List Of Transneptunian Objects] – Minor Planet Center
- {{AstDys|208996}}
- {{JPL small body}}
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Category:Discoveries by Michael E. Brown
Category:Discoveries by Chad Trujillo
Category:Binary trans-Neptunian objects