2020 BX12

2020 BX12 is a sub-kilometer binary asteroid, classified as a near-Earth asteroid and potentially hazardous object of the Apollo group. It was discovered on 27 January 2020, by the Asteroid Terrestrial-impact Last Alert System survey at the Mauna Loa Observatory. The asteroid was discovered during its approach to Earth of 0.02915 AU (4.361 million km; 11.34 LD). radar observations of the asteroid were carried out, revealing a natural satellite orbiting 360 m (1,180 ft) from the primary body .[5] The discovery of the satellite was observed by the Arecibo Observatory on 4 February 2020.[7]

2020 BX12
2020 BX12 and its satellite imaged by the Arecibo Observatory in February 2020
Discovery[1][2]
Discovered byATLAS-MLO
Discovery siteMauna Loa Obs.
Discovery date27 January 2020
Designations
2020 BX12
A10jUnf[3]
Apollo · PHA · NEO
Orbital characteristics[4]
Epoch 31 May 2020 (JD 2459000.5)
Uncertainty parameter 0
Observation arc6.09 yr (2,224 days)
Earliest precovery date5 January 2014
Aphelion2.4437 AU
Perihelion0.7570 AU
1.6004 AU
Eccentricity0.75704
2.02 yr (739.5 d)
34.442°
 29m 12.545s / day
Inclination40.067°
132.904°
70.492°
Earth MOID0.002061 AU
Physical characteristics
Mean diameter
>0.165 km[5]
>165 m
<2.8 h[5]
0.3[5]
20.7[6]
20.631±0.396[4]

    Discovery

    2020 BX12 was discovered on 27 January 2020, by the Asteroid Terrestrial-impact Last Alert System (ATLAS) survey at the Mauna Loa Observatory in Hawaii. The ATLAS survey was designed for detecting near-Earth asteroids on approach to Earth, particularly those that may be considered potentially hazardous under circumstances where they can approach Earth from close distances.[8] 2020 BX12 was identified by a team of astronomers consisting of Larry Denneau, John Tonry, Aren Heinze, and Henry Weiland, who were chiefly involved in the ATLAS project.[1][8] The asteroid was discovered during its approach to Earth, and was at nominal distance of about 0.11 AU (16,000,000 km; 10,000,000 mi) from the planet.[9] At the time of discovery, 2020 BX12 was located in the constellation of Puppis at an apparent magnitude of 17.6.[1][lower-alpha 1]

    The discovery of 2020 BX12 was subsequently reported to the Minor Planet Center's near-Earth object confirmation page (NEOCP), where a preliminary orbit was calculated from additional observations conducted at multiple observatories.[10] Follow-up observations of 2020 BX12 spanned three days since its discovery, and the asteroid was formally announced in a Minor Planet Electronic Circular issued by the Minor Planet Center on 30 January 2020.[1]

    Nomenclature

    Upon discovery, the asteroid was given the temporary internal designation A10jUnf.[3] After follow up observations confirming the object, it was then given the provisional designation 2020 BX12 by the Minor Planet Center on 30 January 2020.[1] The provisional designation signifies the object's discovery date and year.[11] Although 2020 BX12 has a sufficiently long observation arc for its orbit to be accurately determined,[12] the asteroid has not yet been issued a permanent minor planet number by the Minor Planet Center due to it being only recently discovered. Once the Minor Planet Center assigns a minor planet number for 2020 BX12, it will be eligible for naming.[11]

    Orbit and classification

    2020 BX12 orbits the Sun at an average distance of approximately 1.60 astronomical units (0.239×10^9 km; 0.149×10^9 mi), taking 2.02 years to complete one full orbit. The orbit of 2020 BX12 is highly eccentric and inclined to the ecliptic plane: it has an orbital eccentricity of 0.757 and inclination of 40 degrees, with its orbit extending from 0.76 AU at perihelion to 2.44 AU at aphelion. As it approaches perihelion, 2020 BX12 moves above the ecliptic and comes closer to the Sun than Venus, whereas at aphelion, 2020 BX12 moves below the ecliptic and recedes from the Sun farther out than the orbit of Mars. The orbit of 2020 BX12 crosses that of Earth's, thus it can occasionally make close approaches to the planet, making it a near-Earth object. With a semi-major axis (average orbit distance) greater than 1 AU and a perihelion distance within that of Earth's, 2020 BX12 is formally classified under the Apollo group of near-Earth asteroids.[4][2]

    Side view of 2020 BX12's inclined orbit

    The asteroid's minimum orbital intersection distance (MOID) from Earth is approximately 0.002 AU (0.30 million km; 0.19 million mi), or about 0.78 lunar distances.[4] Having such a small Earth MOID, 2020 BX12 is considered a potentially hazardous asteroid (PHA) by the Minor Planet Center, under the definition that PHAs have Earth MOIDs less than 0.05 AU and absolute magnitudes under 22.[2][13] Despite this, 2020 BX12 will not make any close Earth encounters within 15 lunar distances or 0.04 AU (6.0 million km; 3.7 million mi) over the next 200 years,[4][14] and the asteroid has not been listed by the JPL Sentry Risk Table as of 2020.[15]

    On 12 February 2020, a team of astronomers identified 2020 BX12 in several precovery images taken by the Pan-STARRS 1 survey, with the earliest images dating back to 5 January 2014.[12] The observation arc of these precovery images spanned over six years, long enough for astronomers to refine and calculate 2020 BX12's orbit with accuracy.[2] This greatly reduced uncertainties in the asteroid's orbit, reducing its uncertainty parameter from 8 to 1.[1][12] As of February 2020 the observation arc of 2020 BX12 spans 6.09 years or 2,224 days, and its orbit has an uncertainty parameter of 0 according to the JPL Small-Body Database.[4]

    2020 Earth approach

    On 3 February 2020 at 18:56 UTC, 2020 BX12 passed 0.02915 AU (4.36 million km; 2.71 million mi), or 11.35 lunar distances, from Earth.[4] During its close approach to Earth, the asteroid approached Earth at a rate of 25.3 km/s (57,000 mph) and its apparent visual brightness peaked around magnitude 15.7, which is too faint to be seen with the naked eye.[4][16] At closest approach the asteroid's apparent motion in the sky was 1.2 degrees per hour and was in the constellation of Cetus, at an apparent magnitude of 16 and an angular separation of 20 degrees from the Moon.[16][lower-alpha 2]

    The February 2020 encounter by 2020 BX12 provided an opportunity for radar observatories to study the asteroid's characteristics in detail. 2020 BX12 was the first radar target observed by the Arecibo Observatory in Puerto Rico since the one-month shutdown of observatory operations due to a series of earthquakes that have occurred in the southern region of Puerto Rico during December 2019 and January 2020.[17] Radar observations of 2020 BX12 were conducted on 4 February 2020 by a team of astronomers led by Luisa Zambrano-Marín.[18] Over a two-day observation period, astronomers measured the asteroid's size, shape, and rotation, along with the discovery of a small orbiting satellite.[7][14]

    Future approaches

    Over the course of its orbit in the next 200 years, 2020 BX12 will continue to pass by Earth, though it will not make any approaches as close as the February 2020 encounter that would otherwise warrant attention. The last Earth encounter by 2020 BX12 from a closer distance was on 1 February 1931, when the asteroid approached Earth from a distance of 0.009 AU (1.3 million km; 0.84 million mi), or 3.5 lunar distances.[4][19] As 2020 BX12 begins its approach to aphelion after its perihelion passage on 21 March 2020, the asteroid will approach Mars on 28 June 2020, from a distance of 0.042 AU (6.3 million km; 3.9 million mi).[4][14] The next two Earth encounters by 2020 BX12 will occur in February 2022 and 2024, with approach distances of 0.18 AU and 0.34 AU, respectively.[4]

    Physical characteristics

    In Arecibo delay-Doppler radar observations from 4 January to 5 January 2020, 2020 BX12 was resolved at a resolution of 7.5 meters per pixel, allowing for direct measurements of the asteroid's physical properties.[7] Radar images show that 2020 BX12 is at least 165 m (541 ft) in diameter, implying a geometric albedo or reflectivity of 0.30 given its absolute magnitude of 20.6.[5] 2020 BX12 appears to have a nearly spheroidal shape, which is commonly observed in other near-Earth objects such as 2005 YU55 and 101955 Bennu.[18][20] The rotation of 2020 BX12 has not been fully observed in detail due to radar projection effects, thus only constraints on its rotation period can be made. From radar observations spanning two days, the rotation period of 2020 BX12 is likely at most about 2.8 hours.[7]

    Satellite

    S/2020 (2020 BX12) 1
    Two radar images of 2020 BX12 and its satellite taken by the Arecibo Observatory in February 2020
    Discovery[7]
    Discovered byLuisa F. Zambrano-Marí et al.
    Planetary Radar Science Group[lower-alpha 3]
    Discovery siteArecibo Obs.
    Discovery date4 February 2020
    Orbital characteristics[5]
    >0.36 km
    1.96±0.08 d
    Satellite of2020 BX12
    Physical characteristics[7][5]
    Mean diameter
    >0.07 km
    >70 m
    47.04±1.92 h (synchronous)
    <49 h (constraint)
    ≈22.5[5]

      The satellite of 2020 BX12 was discovered in Arecibo radar observations conducted by a team of astronomers consisting of Luisa Zambrano-Marín along with other members of the Planetary Radar Science Group.[7][lower-alpha 3] Under satellite naming conventions by the Minor Planet Center, the satellite would be provisionally designated S/2020 (2020 BX12) 1.[21] With the discovery of a satellite around 2020 BX12, the mass and density of the primary body can be determined from the satellite's orbit.[18] The satellite may have formed as a result of rotational fission or mass ejection of the primary body, since 2020 BX12 along with other binary near-Earth asteroids have been observed to have rapid rotation periods and spheroidal shapes.[19][22]

      Physical characteristics

      With a diameter of at least 70 m (230 ft) across, the satellite is less than half the size of 2020 BX12, the primary component of the binary system.[19][5] The magnitude difference between the satellite and primary is about 1.9, implying an absolute magnitude of about 22.5 for the satellite, given an absolute magnitude of 20.6 for the primary.[5] Excluding delay-Doppler effects on the satellite's brightness in radar images, the satellite's albedo may be slightly higher than that of the primary (~0.3),[7][17] likely around 0.36 based on a generic magnitude-to-diameter conversion using an absolute magnitude of 22.5 and a diameter of 0.07 km.[23]

      Orbit and rotation

      From radar images taken on 5 February 2020, the separation distance between the satellite and the primary body is estimated to be about 360 m (1,180 ft),[7][14] or 4.4 times the radius of the 2020 BX12 primary.[5] The orbital period of the satellite is thought to be around 45–50 hours (1.9–2.1 days), with the best-fit period being 47 hours (1.96 days).[7][5] However, another possible orbital period of 15–16 hours (0.63–0.67 days) has not been yet been ruled out, due to projection effects of radar images.[7] Radar observations by Arecibo suggest the satellite is likely tidally locked to the primary body, with its rotation period being synchronous with its orbital period.[7][18] However, uncertainties remain in measurements of the satellite's rotation period, thus an upper limit to its period was placed at 49 hours.[7][5]

      Notes

      1. The celestial coordinates of 2020 BX12 at the time of discovery were  07h 34m 48.39s −38° 14 23.2.[1] See Puppis for constellation coordinates.
      2. The celestial coordinates of 2020 BX12 at 19:00 UTC are  03h 08m 29.788s +05° 03 41.65.[16] See Cetus for constellation coordinates.
      3. The Planetary Radar Science Group's press release page credits the satellite's discovery to Luisa Fernanda Zambrano-Marín, Sean Marshall, Anne Virkki, Dylan Hickson, Anna McGilvray, Johbany Lebron, and Israel Cabrera of the Arecibo Observatory.[7]
      gollark: Vega cards, IIRC, definitely ended up selling for substantially less for quite a while.
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      References

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      2. "2020 BX12". Minor Planet Center. International Astronomical Union. Retrieved 11 February 2020.
      3. "2020 BX12". NEO Exchange. Las Cumbres Observatory. 27 January 2020. Retrieved 11 February 2020.
      4. "JPL Small-Body Database Browser: 2020 BX12" (2020-02-07 last obs.). Jet Propulsion Laboratory. Retrieved 11 February 2020.
      5. Johnston, Wm. Robert (7 February 2020). "2020 BX12". Johnston's Archive. Retrieved 11 February 2020.
      6. "2020BX12". Near Earth Objects – Dynamic Site. Department of Mathematics, University of Pisa, Italy. Retrieved 11 February 2020.
      7. Virkki, A. K. (10 February 2020). "Discovery Announcement of Binary System 2020 BX12". Planetary Radar Science Group. NAIC-Arecibo Observatory. Retrieved 11 February 2020.
      8. Tonry, J. L.; Denneau, L.; Heinze, A. N.; Stalder, B.; Smith, K. W.; Smartt, S. J.; et al. (June 2018). "ATLAS: A High-Cadence All-Sky Survey System". Publications of the Astronomical Society of the Pacific. 130 (988): 26. arXiv:1802.00879. Bibcode:2018PASP..130f4505T. doi:10.1088/1538-3873/aabadf.
      9. "2020BX12 Ephemerides". Near Earth Objects – Dynamic Site (Ephemerides at discovery). Department of Mathematics, University of Pisa, Italy. Retrieved 11 February 2020.
      10. ""Pseudo-MPEC" for A10jUnf". Project Pluto. 30 January 2020. Retrieved 15 February 2020.
      11. "How Are Minor Planets Named?". Minor Planet Center. International Astronomical Union. Retrieved 12 February 2020.
      12. Bulger, J.; et al. (12 January 2020). "MPEC 2020-C132: 2020 BX12". Minor Planet Electronic Circular. Minor Planet Center. Retrieved 12 February 2020.
      13. "PHA (Potentially Hazardous Asteroid)". Center for Near Earth Object Studies. Jet Propulsion Laboratory. Retrieved 11 February 2020.
      14. Starr, Michelle (11 February 2020). "An Asteroid Totally Just Mooned Earth". ScienceAlert. Retrieved 11 February 2020.
      15. "Sentry: Earth Impact Monitoring". Center for Near Earth Object Studies. Jet Propulsion Laboratory. Retrieved 11 February 2020.
      16. "2020BX12 Ephemerides". Near Earth Objects – Dynamic Site (Ephemerides at 3 February 2020 approach). Department of Mathematics, University of Pisa, Italy. Retrieved 11 February 2020.
      17. Bartels, Meghan (13 February 2020). "Scientists just watched a newfound asteroid zoom by Earth. Then they saw its moon". Space.com. Retrieved 13 February 2020.
      18. Becker, Tracy (12 February 2020). "Arecibo Observatory Discovers Moon Orbiting Near-Earth Asteroid". UCF Today. University of Central Florida. Retrieved 13 February 2020.
      19. Guarino, Ben (14 February 2020). "Astronomers spy near-Earth asteroid that has its own moon". Washington Post. Retrieved 17 February 2020.
      20. Taylor, Patrick A.; Howell, Ellen S.; Nolan, Michael C.; Thane, Abby A. (May 2012). The Shape and Spin Distributions of Near-Earth Asteroids Observed with the Arecibo Radar System (PDF). Asteroids, Comets, Meteors. Niigata, Japan: Lunar and Planetary Institute. Bibcode:2012LPICo1667.6340T. 6340.
      21. "Satellites and Companions of Minor Planets". Central Bureau for Astronomical Telegrams. International Astronomical Union. Retrieved 18 February 2020.
      22. Margot, J. L.; Nolan, M. C.; Benner, L. A. M.; Ostro, S. J.; Jurgens, R. F.; Giorgini, J. F.; et al. (24 May 2002). "Binary Asteroids in the Near-Earth Object Population". Science. 296 (5572): 1445–1448. Bibcode:2002Sci...296.1445M. doi:10.1126/science.1072094. PMID 11951001.
      23. Bruton, D. "Conversion of Absolute Magnitude to Diameter for Minor Planets". Department of Physics, Engineering, and Astronomy. Stephen F. Austin State University. Retrieved 11 January 2020.
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