HD 147379


HD 147379 is a wide visual binary between two red dwarfs in the deep northern constellation of Draco. The two stars are located approximately distant based on Gaia DR3 parallax measurements, and approaching the Solar System at heliocentric radial velocities of −18.962 km/s and −18.36 km/s, respectively. The brighter primary star, HD 147379A, has an apparent magnitude of 8.9, too faint to be seen by the naked eye from Earth but visible using binoculars. The dimmer secondary, B, fluctuates in apparent magnitude between 10.69 and 10.74, making it observable via a telescope with an aperture of 35 mm or larger.

HD 147379A

HD 147379A is a red dwarf with a spectral type of M0.0V, about 58% the mass of the Sun, 57% the radius, and an age of. It emits just over a tenth of the luminosity of the Sun from its photosphere at an effective temperature of. It has a high metallicity of =, meaning it has an iron content somewhere around 45% higher than the Sun. It is also enriched in cobalt, but is depleted in calcium and titanium. The star shows slight variations in the TiO spectral lines.

Planetary system

In 2018, two teams independently reported the discovery of an exoplanet orbiting HD 147379A, both via the radial-velocity method. This was the first exoplanet found by the CARMENES survey. The planet, commonly referred to as HD 147379 b, has a minimum mass of 21.6 ± 1.1, slightly more massive than Neptune. It orbits its host star once every 86.58 days at about a third of the distance from Earth to the Sun, placing it within the conservative habitable zone of the star, where liquid water could exist.
One of the teams that discovered HD 147379 b proposed another candidate planet, this one with a minimum mass of 27 and a 500-day period, orbiting at a distance of about 1 AU. However, a 2023 follow-up study did not detect such a signal. Instead, they detected a signal with a 12.3-day period, but discarded it due to the high chance of it being a false positive. Nevertheless, it is highly likely that a second planet exists interior to b's orbit.

HD 147379B

HD 147379B is a gravitationally bound companion to HD 147379A at a separation of 64.4 arcseconds, which corresponds to a distance of 693.4 AU.
This is a red dwarf with a spectral type of M3V, about 45% the mass of the Sun and 46% the radius. It has a "partially convective" structure, meaning that the outer convection zone does not reach down to the core, as opposed to "fully convective" stars weighing less than 0.35 that are convective throughout. It too has a high metallicity of =, translating to a roughly 60% excess in elements heavier than hydrogen and helium compared to the Sun. At an effective temperature of, it radiates just 2.6% the luminosity of the Sun from its photosphere. It rotates on its axis once every 40.4 days at a relatively slow projected equatorial velocity of 0.50 km/s.
It has a magnetic field that fluctuated in strength between 36-75 G between 2020-2022, approximately 100 times stronger than Earth's magnetic field and similar to those of faster-rotating red dwarfs. The variations in strength are smaller than those seen in fully convective red dwarfs such as Gliese 1151.
In 1994, the star was reported to have a high likelihood of exhibiting long-term variability, albeit the author noted that this may be suspect. It was formally classified as a BY Draconis variable in 1997, receiving the variable-star designation EW Draconis.