(23187) 2000 PN9

(23187) 2000 PN₉ is an unnamed near-Earth asteroid (NEA) on a highly inclined orbit. An Apollo asteroid, it was discovered on 8 August 2000 by the Lincoln Near-Earth Asteroid Research (LINEAR) program. It is around 1.7 kilometres (1.1 mi) in size and shaped like a top, though its equatorial ridge is less prominent compared to other top-shaped asteroids.

(23187) 2000 PN₉

Discovery[1]
Discovered by	Lincoln Near-Earth Asteroid Research (LINEAR)
Discovery site	Lincoln Laboratory Experimental Test Site
Discovery date	8 August 2000
Designations
MPC designation	(23187) 2000 PN9
Minor planet category	NEO · Apollo · PHA
Orbital characteristics[2]
Epoch 21 November 2025 (JD 2461000.5)
Uncertainty parameter 0
Aphelion	2.93547 AU
Perihelion	0.758421 AU
Semi-major axis	1.84695 AU
Eccentricity	0.589365
Orbital period (sidereal)	2.51009 y (916.812 d)
Mean anomaly	324.539°
Mean motion	0.392665° / d
Inclination	51.3359°
Longitude of ascending node	164.281°
Argument of perihelion	293.541°
Earth MOID	0.014953 AU
TJupiter	3.419
Physical characteristics
Dimensions	1.82±0.08 × 1.82±0.07 × 1.77±0.11 km[3]: 4589
Equatorial radius	0.855±0.035 km[3]: 4589 [a]
Sidereal rotation period	2.53216±0.00015 h[3]: 4589
Pole ecliptic longitude	96±36°[3]: 4589
Pole ecliptic latitude	30±17°[3]: 4589
Spectral type	Sq-type or Q-type[3]: 4591
Absolute magnitude (H)	16.05[2]

History

2000 PN₉ was discovered on 8 August 2000 by the Lincoln Near-Earth Asteroid Research (LINEAR) program from the Lincoln Laboratory Experimental Test Site in Socorro, New Mexico, United States.^[1] It was given its provisional designation of 2000 PN₉ by the Minor Planet Center (MPC), and its discovery was announced in a Minor Planet Electronic Circular on 30 August.^[4] Once its orbit was sufficiently determined, the MPC numbered it (23187) on 9 March 2001.^[5]: 112 As of 2025^[update], it has not yet been given a name.^[2]

Orbit

2000 PN₉ orbits the Sun at an average distance—its semi-major axis—of 1.85 astronomical units (AU), taking 2.51 years to complete one revolution. Along its orbit, its distance from the Sun varies between 0.75 AU at perihelion to 2.94 AU at aphelion due to its orbital eccentricity of 0.59. Its orbit is inclined by 51.34° with respect to the ecliptic plane.^[2] It is a near-Earth asteroid (NEA) and an Apollo asteroid, since its orbit crosses Earth's and its semi-major axis is greater than one AU.^[2][6] It makes periodic close approaches to Earth, categorizing it as a potentially hazardous asteroid.^[7]: 167

Physical characteristics

2000 PN₉ is 1.71 kilometres (1.06 mi) in size and shaped like a top or diamond, characteristic of rubble pile asteroids. It is nearly spherical, with a less pronounced equatorial ridge compared to other top-shaped NEAs.^{[3]: 4589, 4592} Based on its surface spectrum, it is classified as an Sq-type or Q-type asteroid. It has no known moons.^[3]: 4591

Based on observations of 2000 PN₉'s lightcurve, or variations in its observed brightness, it has a rotation period of 2.53 hours, rotating in a prograde direction.^[3]: 4589 Its rapid rotation means that its surface likely experiences frequent landslides and mass shedding events that move regolith from its polar regions to its equator. This process exposes unweathered material, and its Sq/Q-type classification could be a consequence of these processes. However, its lack of a satellite is unusual as many top-shaped NEAs have moons; it is one of the largest solitary top-shaped asteroids known.^[3]: 4591 The YORP effect can spin up an NEA towards the spin barrier, at which point a cohesionless rubble pile would break up due to centrifugal forces.^[8] Material flung out can then reaccrete, forming a multiple asteroid system. 2000 PN₉ lies close to the spin barrier, which is around 2.2 hours, but its rotation is not being spun up. Its symmetrical shape means that it has not experienced breakup in the past. This indicates that it may be trapped in a state of rotational equilibrium, where the torque produced by the YORP effect enforces a steady rotation period instead.^[3]: 4592

Notes

1. Given as an equatorial diameter of 1.71±0.07 km