The Inconsistent use of ω in the RV Equation

Abstract

Since the discovery of the first exoplanet orbiting a main-sequence star, astronomers have inferred the orbital properties of planets using stellar radial velocity (RV) measurements. For a star orbited by a single planet, the stellar orbit is a dilation and 180 rotation of the planetary orbit. Thus, many of the Keplerian orbital properties of the star are identical to those of the planet. However, there is a notable exception: the argument of periastron, ω, defined as the angle between the periapsis of an orbiting body and its ascending node. The argument of periastron of the star (ω) is 180 offset from the argument of periastron of the planet (ωp). This distinction is important because some derivations of the RV equation use ω, while others use ωp. This discrepancy arises because commonly used derivations of the RV equation do not adhere to a single coordinate system. As a result, there are inconsistencies in the definitions of the Keplerian orbital parameters in various RV models, leading to values of the ascending node and ω that are 180 offset. For instance, some packages, such as RadVel and ExoFast, report values for ω that are identical to the ωp values determined with other packages, such as TTVFast and Orvara, resulting in orbital solutions that differ by 180. This discrepancy highlights the need for standardized conventions and definitions in RV modeling, particularly as we enter the era of combining RVs with astrometry.

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