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Title:
Line-profile variations in radial-velocity measurements. Two alternative indicators for planetary searches
Authors:
Figueira, P.; Santos, N. C.; Pepe, F.; Lovis, C.; Nardetto, N.
Affiliation:
AA(Centro de Astrofísica, Universidade do Porto, Rua das Estrelas, 4150-762, Porto, Portugal ), AB(Centro de Astrofísica, Universidade do Porto, Rua das Estrelas, 4150-762, Porto, Portugal; Departamento de Física e Astronomia, Faculdade de Ciências, Universidade do Porto, Portugal), AC(Observatoire Astronomique de l'Université de Genève, 51 Ch. des Maillettes, 1290 Sauverny, Versoix, Suisse), AD(Observatoire Astronomique de l'Université de Genève, 51 Ch. des Maillettes, 1290 Sauverny, Versoix, Suisse), AE(Laboratoire Lagrange, UMR 7293, UNS/CNRS/OCA, 06300, Nice, France)
Publication:
Astronomy & Astrophysics, Volume 557, id.A93, 12 pp. (A&A Homepage)
Publication Date:
09/2013
Origin:
EDP Sciences
Astronomy Keywords:
planetary systems, techniques: radial velocities, line: profiles, methods: data analysis
DOI:
10.1051/0004-6361/201220779
Bibliographic Code:
2013A&A...557A..93F

Abstract


Aims: We introduce two methods to identify false-positive planetary signals in the context of radial-velocity exoplanet searches. The first is the bi-Gaussian cross-correlation function fitting (and monitoring of the parameters derived from it), and the second is the measurement of asymmetry in radial-velocity spectral line information content, Vasy. We assess the usefulness of each of these methods by comparing their results with those delivered by current indicators.
Methods: We make a systematic analysis of the most used common line profile diagnosis, Bisector Inverse Slope and Velocity Span, along with the two proposed ones. We evaluate all these diagnosis methods following a set of well-defined common criteria and using both simulated and real data. We apply them to simulated cross-correlation functions that are created with the program SOAP and which are affected by the presence of stellar spots. We consider different spot properties on stars with different rotation profiles and simulate observations as obtained with high-resolution spectrographs. We then apply our methodology to real cross-correlation functions, which are computed from HARPS spectra, for stars with a signal originating in activity (thus spots) and for those with a signal rooted on a planet.
Results: We demonstrate that the bi-Gaussian method allows a more precise characterization of the deformation of line profiles than the standard bisector inverse slope. The calculation of the deformation indicator is simpler and its interpretation more straightforward. More importantly, its amplitude can be up to 30% larger than that of the bisector span, allowing the detection of smaller-amplitude correlations with radial-velocity variations. However, a particular parametrization of the bisector inverse slope is shown to be more efficient on high-signal-to-noise data than both the standard bisector and the bi-Gaussian. The results of the Vasy method show that this indicator is more effective than any of the previous ones, being correlated with the radial-velocity with more significance for signals resulting from a line deformation. Moreover, it provides a qualitative advantage over the bisector, showing significant correlations with RV for active stars for which bisector analysis is inconclusive.
Conclusions: We show that the two indicators discussed here should be considered as standard tests to check for the planetary nature of a radial-velocity signal. We encourage the usage of different diagnosis as a way of characterizing the often elusive line profile deformations.

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