2014 OS393

, unofficially designated, and , is a binary trans-Neptunian object in the classical Kuiper belt, the outermost region of the Solar System. It was first observed by the New Horizons KBO Search using the Hubble Space Telescope on 30 July 2014. Until 2015, when the object 486958 Arrokoth was selected, it was a potential flyby target for the New Horizons probe. Estimated to be approximately 42 km in diameter, the object had a poorly determined orbit as it had been observed for only a few months. With MPEC 2024-E99 the Minor Planet Center published on 6 March 2024 additional observations by New Horizons KBO Search-Subaru which allowed to compute a fairly reliable orbit.

Discovery and designation


was discovered by the New Horizons Search Team with the help of the Hubble Space Telescope because the object has a magnitude of 26.3, which is too faint to be observed by ground-based telescopes. Preliminary observations by the HST searching for KBO flyby targets for the New Horizons probe started in June 2014, and more intensive observations continued in July and August. was first discovered in observations on July 30, 2014, but it was designated e31007AI at the time, nicknamed e3 for short. Its existence as a potential target of the New Horizons probe was revealed by NASA in October 2014 and designated PT2, but the official name  was not assigned by the Minor Planet Center until March 2015 after better orbit information was available.

Orbit and classification
is a trans-Neptunian object and likely a non-resonant classical Kuiper belt object, also known as "cubewano". It orbits the Sun at a distance of 43.3–44.84 AU once every 292 years (semi-major axis of 44.04 AU). Its orbit has an eccentricity of 0.018 and an inclination of 3.8° with respect to the ecliptic. As this object has not been observed since July 2017, its orbit remains rather poorly determined still containing a high uncertainty of 7.

The body's observation arc begins with a precovery taken on 25 June 2014, by the New Horizons KBO Search team using the Subaru Telescope at Mauna Kea Observatory on Hawaii. and ends presently on 21 July 2017, covering 1122 days.

Binary
After the New Horizons probe completed its flyby of Arrokoth, the probe began observations of other nearby surrounding Kuiper belt objects, including. Observations of 's brightness variations at high phase angles allowed the New Horizons probe to make a rough determination of its rotation period as well as its shape. As New Horizons observed at phase angles near 90°, it displayed large variations in brightness, indicating that its shape is either extremely elongated or  could be a binary system of two separated components. appeared to be possibly a separated binary in a few resolved New Horizons images, but in 2020 this remained inconclusive.

Later work by Hal Weaver in 2021 showed that is indeed a binary, with two components about 30 km in diameter, about 150 km apart.

Exploration
After the New Horizons probe completed its flyby of Pluto, the probe was to be maneuvered to a flyby of at least one Kuiper belt object. Several potential targets were under consideration for the first such flyby. has an estimated mean diameter between 30 and 55 kilometers, depending on the body's assumed albedo. The potential encounter in 2018–2019 would have been at a distance of 43–44 AU from the Sun.

On 28 August 2015, the New Horizons team announced the selection of (later named 486958 Arrokoth) as the next flyby target, eliminating the other possible targets —, , and.

The spacecraft passed in January 2019, at a distance of less than 0.1 AU (15 million km, 9.3 million miles). This makes the second closest KBO observed by New Horizons, after Arrokoth.

Numbering and naming
This minor planet has not been numbered by the Minor Planet Center and remains unnamed.