Photon-weighted barycentric correction and its importance for precise radial velocities

When applying the barycentric correction to a precise radial velocity measurement, it is common practice to calculate its value only at the photon-weighted midpoint time of the observation instead of integrating over the entire exposure. However, since the barycentric correction does not change line...

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Bibliographic Details
Published in:arXiv.org 2019-08
Main Authors: Tronsgaard, René, Buchhave, Lars A, Wright, Jason T, Eastman, Jason D, Blackman, Ryan T
Format: Article
Language:English
Subjects:
Flux
Photometers
Photons
Radial velocity
Systematic errors
Velocity measurement
Online Access:Get full text
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Summary:When applying the barycentric correction to a precise radial velocity measurement, it is common practice to calculate its value only at the photon-weighted midpoint time of the observation instead of integrating over the entire exposure. However, since the barycentric correction does not change linearly with time, this leads to systematic errors in the derived radial velocities. The typical magnitude of this second-order effect is of order 10 cm s\(^{-1}\), but it depends on several parameters, e.g. the latitude of the observatory, the position of the target on the sky, and the exposure time. We show that there are realistic observing scenarios, where the errors can amount to more than 1 ms\(^{-1}\). We therefore recommend that instruments operating in this regime always record and store the exposure meter flux curve (or a similar measure) to be used as photon-weights for the barycentric correction. In existing data, if the flux curve is no longer available, we argue that second-order errors in the barycentric correction can be mitigated by adding a correction term assuming constant flux.
ISSN:2331-8422
DOI:10.48550/arxiv.1908.00991