The Astronomical Journal (Jan 2024)

Confirming the Warm and Dense Sub-Saturn TIC 139270665 b with the Automated Planet Finder and Unistellar Citizen Science Network

  • Daniel O’Conner Peluso,
  • Paul A. Dalba,
  • Duncan Wright,
  • Thomas M. Esposito,
  • Lauren A. Sgro,
  • Ian C. Weaver,
  • Franck Marchis,
  • Diana Dragomir,
  • Steven Villanueva Jr.,
  • Benjamin Fulton,
  • Howard Isaacson,
  • Arvind F. Gupta,
  • Thomas Lee Jacobs,
  • Daryll M. LaCourse,
  • Robert Gagliano,
  • Martti H. Kristiansen,
  • Mark Omohundro,
  • Hans M. Schwengeler,
  • Ivan A. Terentev,
  • Andrew Vanderburg,
  • Ananya Balakrishnan,
  • Divya Bhamidipati,
  • Marco Hovland,
  • Serina Jain,
  • Nathan Jay,
  • Hanna Johnson,
  • Aditya Kapur,
  • Jonah Morgan,
  • Josephine Oesterer,
  • Richard Purev,
  • Dean Ramos,
  • Christopher Seo,
  • Vibha Sriramkumar,
  • Naina Srivastava,
  • Astha Verma,
  • Olivia Woo,
  • Steven Adkinson,
  • Keiichi Fukui,
  • Patrice Girard,
  • Tateki Goto,
  • Bruno Guillet,
  • Des Janke,
  • Andre Katterfeld,
  • Rachel Knight,
  • David Koster,
  • Ryuichi Kukita,
  • Eric Lawson,
  • Liouba Leroux,
  • Niniane Leroux,
  • Chelsey Logan,
  • Margaret A. Loose,
  • Nicola Meneghelli,
  • Eric Oulevey,
  • Bruce Parker,
  • Stephen Price,
  • Michael Primm,
  • Justus Randolph,
  • Robert Savonnet,
  • Masao Shimizu,
  • Petri Tikkanen,
  • Stefan Will,
  • Neil Yoblonsky,
  • Wai-Chun Yue

DOI
https://doi.org/10.3847/1538-3881/ad2772
Journal volume & issue
Vol. 167, no. 4
p. 170

Abstract

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We report the discovery and confirmation of the Transiting Exoplanet Survey Satellite (TESS) single-transit, warm and dense sub-Saturn, TIC 139270665 b. This planet is unusually dense for its size: with a bulk density of 2.13 g cm ^−3 (0.645 R _J , 0.463 M _J ), it is the densest warm sub-Saturn of the TESS family. It orbits a metal-rich G2 star. We also found evidence of a second planet, TIC 139270665 c, with a longer period of ${1010}_{-220}^{+780}$ days and minimum mass ${M}_{P}\sin i$ of ${4.89}_{-0.37}^{+0.66}$ M _J . First clues of TIC 139270665 b’s existence were found by citizen scientists inspecting TESS photometric data from sector 47 in 2022 January. Radial velocity measurements from the Automated Planet Finder combined with TESS photometry and spectral energy distributions via EXOFASTv2 system modeling suggested a ${23.624}_{-0.031}^{+0.030}$ day orbital period for TIC 139270665 b and also showed evidence for the second planet. Based on this estimated period, we mobilized the Unistellar citizen science network for photometric follow-up, capitalizing on their global distribution to capture a second transit of TIC 139270665 b. This citizen science effort also served as a test bed for an education initiative that integrates young students into modern astrophysics data collection. The Unistellar photometry did not definitively detect a second transit, but did enable us to further constrain the planet’s period. As a transiting, warm, and dense sub-Saturn, TIC 139270665 b represents an interesting laboratory for further study to enhance our models of planetary formation and evolution.

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