1. TFAW survey II: Six newly validated planets and 13 planet candidates from K2
- Author
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National Aeronautics and Space Administration (US), Reial Acadèmia de Ciències i Arts de Barcelona, European Space Agency, Ministerio de Ciencia e Innovación (España), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ser, Daniel del, Fors, Octavi, Alcázar, M. del, Dyachenko, V., Horch, E. P., Tokovinin, Andrei, Ziegler, C., Belle, G. T. van, Clark, C. A., Hartman, Z. D., National Aeronautics and Space Administration (US), Reial Acadèmia de Ciències i Arts de Barcelona, European Space Agency, Ministerio de Ciencia e Innovación (España), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ser, Daniel del, Fors, Octavi, Alcázar, M. del, Dyachenko, V., Horch, E. P., Tokovinin, Andrei, Ziegler, C., Belle, G. T. van, Clark, C. A., and Hartman, Z. D.
- Abstract
Searching for Earth-sized planets in data from Kepler’s extended mission (K2) is a niche that still remains to be fully exploited. The TFAW survey is an ongoing project that aims to re-analyse all light curves in K2 C1–C8 and C12–C18 campaigns with a wavelet-based detrending and denoising method, and the period search algorithm TLS to search for new transit candidates not detected in previous works. We have analysed a first subset of 24 candidate planetary systems around relatively faint host stars (10.9 < Kp < 15.4) to allow for follow-up speckle imaging observations. Using vespa and TRICERATOPS, we statistically validate six candidates orbiting four unique host stars by obtaining false-positive probabilities smaller than 1 per cent with both methods. We also present 13 vetted planet candidates that might benefit from other, more precise follow-up observations. All of these planets are sub-Neptune-sized with two validated planets and three candidates with sub-Earth sizes, and have orbital periods between 0.81 and 23.98 d. Some interesting systems include two ultra-short-period planets, three multiplanetary systems, three sub-Neptunes that appear to be within the small planet Radius Gap, and two validated and one candidate sub-Earths (EPIC 210706310.01, K2-411 b, and K2-413 b) orbiting metal-poor stars.
- Published
- 2023