The spectrum of HD 108874 presents as a G-type main-sequence star with a stellar classification of G5 V.[3] (An alternate source gives a class of G9 V.)[4] It is probably billions of years older than the Sun although the age is not well constrained. The level of magnetic activity in the chromosphere is lower than in the Sun and it is spinning with a low rotation period of 40 days.[6] The star has about the same mass as the Sun, but the radius is 6% larger. The abundance of iron, an indicator of the star's metallicity, is 1.18 times that of the Sun.[6][3] The star is radiating 1.19[1] times the luminosity of the Sun from its photosphere at an effective temperature of about 5600 K.[6]
Planetary system
In 2003, the jovian planetHD 108874 b was discovered by the US-based team led by Paul Butler, Geoffrey Marcy, Steven Vogt, and Debra Fischer. A total of 20 radial velocity observations, obtained at the W. M. Keck Observatory between 1999 and 2002, were used to make the discovery.[9] In 2005, further observations revealed this star has another jovian planet orbiting further out, designated as HD 108874 c.[3] The orbital parameters of both planets were updated in 2009 with additional observations.[10] There is an additional radial velocity signal in the data at a period of 40 days however this likely caused by the stellar rotation period.[6]
Those two planets are near, and possibly in a 9:2 orbital resonance. This means if HD 108874 b orbits the star nine times, then HD 108874 c orbits twice, because the orbital period for planet c is four and a half times longer than planet b.[6]
^ abYoss, K. M.; Griffin, R. F. (September 1997). "Radial Velocities and DDO, BV Photometry of Henry Draper G5-M Stars Near the North Galactic Pole". Journal of Astrophysics and Astronomy. 18 (2–3): 161. Bibcode:1997JApA...18..161Y. doi:10.1007/BF02714877. S2CID123221180.