HD 18438 b


HD 18438 b is a substellar object, either a massive gas giant exoplanet or a brown dwarf, orbiting the star HD 18438, a red giant star located about away from Earth.

Observational history

variations of HD 18438 were first analyzed and reported in 2018, which found regular fluctuations with a period of, longer than the stellar rotation period of. This was then attributed to oscillations of the star itself, as they were similar to that of long secondary period (LSP) giant stars, though a definite conclusion could not be established.
In 2023, however, with four more years of observations, a follow-up study ruled out the association of LSP with the radial velocity variations, and instead determined that the signals, with a revised period of, were caused by an orbiting planetary companion with a minimum mass of 21. This also agrees with a previous study that provided mass estimates for a companion to HD 18438. In this re-analysis process, the rotation period of the host star was also revised to to better match the accumulated data.

Physical characteristics

HD 18438 b is a massive planet with a mass of 21 and an estimated radius of 1.08. This is above the deuterium burning limit, and thus according to some definitions, including the IAU standard, it may be classified as a brown dwarf. However, other organizations deem the object a planet, such as the NASA Exoplanet Science Institute, which includes bodies as massive as 30 in the NASA Exoplanet Catalog.

Orbit

The planet orbits its host star at a distance of, taking to complete one orbit around the star. It has an orbital eccentricity of 0.1.

Host star

HD 18438 is a red giant with a spectral type of M2.5 III, inflated to a diameter of 88. If HD 18438 b is to be considered a planet at all, this would make it the largest host to an exoplanet known to date as of September 2024. Its sheer size means that despite having an effective temperature significantly cooler than the Sun at, it shines 929 times as bright. With a mass of 1.84 and an age of, it is nearing the end of its lifespan, having long since left the main-sequence stage. The star has a low metallicity of dex, meaning it only has an iron content between 32% and 50% that of the Sun.