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TRANSITING THE SUN. II. THE IMPACT OF STELLAR ACTIVITY ON Lyα TRANSITS

High-energy observations of the Sun provide an opportunity to test the limits of our ability to accurately measure the properties of transiting exoplanets in the presence of stellar activity. Here we insert the transit of a hot Jupiter into continuous disk integrated data of the Sun in Ly α from NAS...

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Bibliographic Details
Published in:The Astrophysical journal 2016-01, Vol.817 (1), p.81
Main Authors: Llama, J., Shkolnik, E. L.
Format: Article
Language:English
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Summary:High-energy observations of the Sun provide an opportunity to test the limits of our ability to accurately measure the properties of transiting exoplanets in the presence of stellar activity. Here we insert the transit of a hot Jupiter into continuous disk integrated data of the Sun in Ly α from NASA’s Solar Dynamics Observatory /EVE instrument to assess the impact of stellar activity on the measured planet-to-star radius ratio ( R p / R ⋆ ). In 75% of our simulated light curves, we measure the correct radius ratio; however, incorrect values can be measured if there is significant short-term variability in the light curve. The maximum measured value of R p / R ⋆ is 50% larger than the input value, which is much smaller than the large Ly α transit depths that have been reported in the literature, suggesting that for stars with activity levels comparable to the Sun, stellar activity alone cannot account for these deep transits. We ran simulations without a transit and found that stellar activity cannot mimic the Ly α transit of 55 Cancari b, strengthening the conclusion that this planet has a partially transiting exopshere. We were able to compare our simulations to more active stars by artificially increasing the variability in the Solar Ly α light curve. In the higher variability data, the largest value of R p / R ⋆ we measured is
ISSN:0004-637X
1538-4357
DOI:10.3847/0004-637X/817/1/81