532037 Chiminigagua

532037 Chiminigagua is a large trans-Neptunian object in the scattered disc. It was discovered on 17 March 2013 by Scott Sheppard and Chad Trujillo at Cerro Tololo Observatory in Chile. Chiminigagua has a nominal diameter of about, which is large enough that some astronomers consider it a possible dwarf planet. Chiminigagua has a moderately red color, which suggests it has an old, ice-poor surface that has been dulled by cosmic rays and micrometeoroid bombardment. It has one unnamed moon about in diameter, which is believed to have formed from a giant impact on Chiminigagua.

History

Discovery

Chiminigagua was discovered by Scott Sheppard and Chad Trujillo on 17 March 2013, during a search for distant trans-Neptunian objects. Their search was performed using the 4.0-meter Víctor M. Blanco Telescope's Dark Energy Camera at Cerro Tololo Observatory in Chile, which repeatedly imaged large portions of the sky to reveal TNOs as slow-moving objects. Sheppard and Trujillo had been searching for TNOs using other telescopes since 2007, but they switched to primarily using DECam when it became operational in 2012.
From May 2013 to March 2014, Sheppard and Trujillo reobserved Chiminigagua using DECam and the 6.5-meter Magellan–Baade Telescope in Las Campanas Observatory, Chile. The Minor Planet Center announced the discovery of Chiminigagua on 31 March 2014 and gave it the minor planet provisional designation.
Before Chiminigagua, Sheppard and Trujillo had discovered several large TNOs with DECam—namely, the sednoid and the scattered disc object, which were announced along with Chiminigagua within a week of one another in late March to early April 2014. When Chiminigagua was discovered, it was nearly at its farthest point from the Sun in its orbit. This made Chiminigagua appear dim with an apparent magnitude of 22 from Earth. Because of its faintness, Chiminigagua likely evaded discovery by earlier, less sensitive TNO searches. Chiminigagua has been identified in precovery observations by the Pan-STARRS survey from March 2011 to February 2013.

Naming and numbering

The object is named after Chiminigagua, the creator god of the Muisca people that inhabit the Andes mountains in the central part of Colombia. The naming of this object was announced by the International Astronomical Union's Working Group for Small Body Nomenclature on 11 August 2025. The name follows the WGSBN's recommended naming theme of mythological creation figures for trans-Neptunian objects, which includes scattered disc objects like Chiminigagua.
Before Chiminigagua was officially named, it was known by its provisional designation, which indicates the year and half-month of the object's discovery date. The Minor Planet Center gave it the minor planet catalog number 532037 on 18 May 2019.

Orbit

Chiminigagua is a trans-Neptunian object orbiting the Sun at a semi-major axis or average distance of 58.9 astronomical units. It follows a highly tilted and elliptical orbit with an eccentricity of 0.39 and inclination of 33.1° with respect to the ecliptic. During its 450-year orbital period, Chiminigagua comes within 35.6 AU from the Sun at perihelion and up to 82.0 AU at aphelion. This large variation in distance from the Sun means Chiminigagua experiences large variations in surface temperature over the course of its orbit: at perihelion Chiminigagua would be, whereas at aphelion it would be.
Chiminigagua belongs to the scattered disc, which is a population of TNOs that have distant, inclined, and eccentric orbits that come close to Neptune at perihelion. The scattered disc population, which includes the dwarf planets and, are strongly influenced by Neptune's gravitational perturbations and consequently experience gravitational scattering.
Chiminigagua passed aphelion in March–April 1978 and is now moving closer to the Sun until it will reach perihelion between October and November 2202. Chiminigagua previously passed perihelion in April–May 1752. Chiminigagua was 80.5 AU away from the Sun when it was discovered, and it has since moved a few AU closer. There are over 20 known TNOs that are located farther away from the Sun than Chiminigagua.

Physical characteristics

Size

Chiminigagua has a diameter of about , according to Atacama Large Millimeter Array measurements of its thermal emission. Chiminigagua has an absolute magnitude of 3.15 in visible light, which makes it the ninth intrinsically brightest TNO known. Chiminigagua is large and bright enough that some astronomers and planetary scientists, including Scott Sheppard, Emily Lakdawalla, and Michael E. Brown, have called it a likely dwarf planet.
Among TNO researchers, Chiminigagua is better known as belonging to the proposed class of "mid-sized" TNOs between in diameter, which are believed to represent the transition between small, low-density TNOs and large, high-density dwarf planets. Planetary scientists have hypothesized that mid-sized TNOs should have highly porous and unheated interiors, because TNOs in this size range have been found to have low densities around. The mass and density of Chiminigagua is unknown, however, because the orbit of its moon has not been determined yet. Hubble Space Telescope observations in December 2025 and January 2026 will be able to determine Chiminigagua's mass and density, which will verify the aforementioned hypothesis on the interiors of mid-sized TNOs.

Surface

Observations of Chiminigagua in different light filters show that it has a moderately red color, which is common among mid-sized TNOs. The moderately red color of Chiminigagua suggests it has an old, ice-poor surface that has been dulled by cosmic rays and micrometeoroid bombardment, in contrast to the fresh, icy surfaces of larger dwarf planets like Pluto. Chiminigagua's brightness and diameter indicates it has a moderate geometric albedo of 0.17, which is on the high end for mid-sized TNOs with moderately red colors.

Rotation

The rotation period of Chiminigagua is unknown. Observations of Chiminigagua's brightness over time in March and May 2016 showed no obvious variability beyond magnitudes over hours and days. The lack of brightness variation suggests that Chiminigagua has either a very long rotation period, an approximately spheroidal shape with no significant albedo variation, or a rotation axis pointing towards Earth.

Satellite

Chiminigagua is a binary system with one known natural satellite, which has no official designation or name. The moon was discovered by Scott Sheppard using the Hubble Space Telescope's Wide Field Camera 3 on 15 January 2018, whose high-resolution images revealed it as a faint dot next to Chiminigagua. Sheppard reported the moon to the International Astronomical Union, which announced the discovery on 10 August 2018 via the Central Bureau for Astronomical Telegrams.
The moon is magnitudes fainter than Chiminigagua, which suggests it has a diameter between , if the moon's albedo is the same as Chiminigagua's. Compared to other mid-sized TNOs with moons, the secondary-to-primary diameter ratio of the Chiminigagua system is relatively small. The relatively small size and orbit of Chiminigagua's moon suggests it likely formed from a giant impact on Chiminigagua, similar to the small moons of the larger dwarf planets.
Although Chiminigagua's moon has been observed multiple times by the Hubble Space Telescope from January to July 2018, the exact details of its orbit are still unknown. These Hubble observations from 2018 showed that the moon orbits relatively close to Chiminigagua, at least away but no farther than 0.25 arcseconds. The orbit of Chiminigagua's moon is oriented edge-on from Earth's perspective, which means that the moon can pass in front of or behind Chiminigagua and thus evade detection. The Hubble Space Telescope is scheduled to observe Chiminigagua and its moon in December 2025 and January 2026, which should be able to determine the moon's orbit.