Minimizing the bias in exoplanet detection - application to radial velocities of LHS 1140

Fabo Feng; Hugh R. A. Jones; Mikko Tuomi

arxiv: 1807.02483 · v1 · pith:EYMB2H33new · submitted 2018-07-06 · 🌌 astro-ph.EP

Minimizing the bias in exoplanet detection - application to radial velocities of LHS 1140

Fabo Feng , Mikko Tuomi , Hugh R. A. Jones This is my paper

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keywords radialvelocitydataactivityagathadiscoveryplanetsignals

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A rocky planet orbiting LHS 1140 with a period of 24.7d has been found based on the discovery of transits in its light and high precision radial velocity data (Dittmann et al. 2017). This discovery by two independent methods is an observational tour-de-force, however, we find that a conservative analysis of the data gives a different solution. A three planet system is apparent in the radial velocity data based on our diagnosis of stellar activity. We encourage further targeted photometric and radial velocity observations in order to constrain the mini-Neptune and super-Earth mass objects apparently causing the 3.8 and 90 day radial velocity signals. We use our package Agatha (https://phillippro.shinyapps.io/Agatha/) to provide a comprehensive strategy to disentangle planetary signals from stellar activity in radial velocity data.

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Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

The high-energy radiation environment of the habitable-zone super-Earth LHS 1140b
astro-ph.EP 2019-06 unverdicted novelty 4.0

Swift observations find LHS 1140b receives <2% of Earth's NUV flux but a FUV/NUV ratio 100-200 times higher, with the host star showing low variability.