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Published March 2022 | public
Journal Article Metadata-only

Transit timings variations in the three-planet system: TOI-270

Kaye, Laurel ORCID icon
Vissapragada, Shreyas ORCID icon
Günther, Maximilian N. ORCID icon
Aigrain, Suzanne ORCID icon
Mikal-Evans, Thomas ORCID icon
Jensen, Eric L. N. ORCID icon
Parviainen, Hannu ORCID icon
Pozuelos, Francisco J. ORCID icon
Abe, Lyu ORCID icon
Acton, Jack S. ORCID icon
Agabi, Abdelkrim
Alves, Douglas R. ORCID icon
Anderson, David R. ORCID icon
Armstrong, David J. ORCID icon
Barkaoui, Khalid ORCID icon
Barragán, Oscar ORCID icon
Benneke, Björn ORCID icon
Boyd, Patricia T. ORCID icon
Brahm, Rafael ORCID icon
Bruni, Ivan ORCID icon
Bryant, Edward M. ORCID icon
Burleigh, Matthew R. ORCID icon
Casewell, Sarah L. ORCID icon
Ciardi, David R. ORCID icon
Cloutier, Ryan ORCID icon
Collins, Karen A. ORCID icon
Collins, Kevin I. ORCID icon
Conti, Dennis M. ORCID icon
Crossfield, Ian J. M. ORCID icon
Crouzet, Nicolas ORCID icon
Daylan, Tansu ORCID icon
Dragomir, Diana ORCID icon
Dransfield, Georgina ORCID icon
Fabrycky, Daniel ORCID icon
Fausnaugh, Michael ORCID icon
Fuűrész, Gábor
Gan, Tianjun ORCID icon
Gill, Samuel ORCID icon
Gillon, Michaël ORCID icon
Goad, Michael R. ORCID icon
Gorjian, Varoujan ORCID icon
Greklek-McKeon, Michael ORCID icon
Guerrero, Natalia ORCID icon
Guillot, Tristan ORCID icon
Jehin, Emmanuël ORCID icon
Jenkins, J. S. ORCID icon
Lendl, Monika ORCID icon
Kamler, Jacob
Kane, Stephen R. ORCID icon
Kielkopf, John F. ORCID icon
Kunimoto, Michelle ORCID icon
Marie-Sainte, Wenceslas
McCormac, James ORCID icon
Mékarnia, Djamel ORCID icon
Morales, Farisa Y. ORCID icon
Moyano, Maximiliano ORCID icon
Palle, Enric ORCID icon
Parmentier, Vivien ORCID icon
Relles, Howard M.
Schmider, François-Xavier ORCID icon
Schwarz, Richard P. ORCID icon
Seager, S. ORCID icon
Smith, Alexis M. S. ORCID icon
Tan, Thiam-Guan ORCID icon
Taylor, Jake ORCID icon
Triaud, Amaury H. M. J. ORCID icon
Twicken, Joseph D. ORCID icon
Udry, Stephane ORCID icon
Vines, J. I. ORCID icon
Wang, Gavin ORCID icon
Wheatley, Peter J. ORCID icon
Winn, Joshua N. ORCID icon

Abstract

We present ground- and space-based photometric observations of TOI-270 (L231-32), a system of three transiting planets consisting of one super-Earth and two sub-Neptunes discovered by TESS around a bright (K-mag = 8.25) M3V dwarf. The planets orbit near low-order mean-motion resonances (5:3 and 2:1) and are thus expected to exhibit large transit timing variations (TTVs). Following an extensive observing campaign using eight different observatories between 2018 and 2020, we now report a clear detection of TTVs for planets c and d, with amplitudes of ∼10 min and a super-period of ∼3 yr, as well as significantly refined estimates of the radii and mean orbital periods of all three planets. Dynamical modelling of the TTVs alone puts strong constraints on the mass ratio of planets c and d and on their eccentricities. When incorporating recently published constraints from radial velocity observations, we obtain masses of M_b = 1.48 ± 0.18 M_⊕, M_c = 6.20 ± 0.31 M_⊕, and M_d = 4.20 ± 0.16 M_⊕ for planets b, c, and d, respectively. We also detect small but significant eccentricities for all three planets : eb = 0.0167 ± 0.0084, ec = 0.0044 ± 0.0006, and ed = 0.0066 ± 0.0020. Our findings imply an Earth-like rocky composition for the inner planet, and Earth-like cores with an additional He/H2O atmosphere for the outer two. TOI-270 is now one of the best constrained systems of small transiting planets, and it remains an excellent target for atmospheric characterization.

Additional Information

© 2021 The Author(s) Published by Oxford University Press on behalf of Royal Astronomical Society. This article is published and distributed under the terms of the Oxford University Press, Standard Journals Publication Model (https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_model) Accepted 2021 No v ember 23. Received 2021 November 22; in original form 2021 March 30. This research received funding from the European Research Council (ERC) under the European Union's Horizon 2020 research and innovation programme (grant agreement no. 803193/BEBOP) and from the Science and Technology Facilities Council (STFC; grant no. ST/S00193X/1). LK acknowledges funding support from the Clarendon Scholarship. SV is supported by an NSF Graduate Research Fellowship and the Paul & Daisy Soros Fellowship for New Americans, and additionally thanks Heather Knutson for helpful comments on the dynamical analysis. MNG acknowledges support from MIT's Kavli Institute as a Juan Carlos Torres Fellow. TD acknowledges support from MIT's Kavli Institute as a Kavli Fellow. DD acknowledges support from the tess Guest Investigator Program grant 80NSSC19K1727 and NASA Exoplanet Research Program grant 18-2XRP182-0136. JSJ acknowledges support by FONDECYT grant 1201371, and partial support from CONICYT project Basal AFB-170002. JIV acknowledges support of CONICYT-PFCHA/Doctorado Nacional-21191829. ACh acknowledges the support of the DFG priority program SPP 1992 'Exploring the Diversity of Extrasolar Planets' (RA 714/13-1), DJA acknowledges support from the STFC via an Ernest Rutherford Fellowship (ST/R00384X/1) JSJ acknowledges support by FONDECYT grant 1201371, and partial support from CONICYT project Basal AFB-170002. PJW is supported by STFC consolidated grant ST/T000406/1. SG has been supported by STFC through consolidated grants ST/L000733/1 and ST/P000495/1. SLC acknowledges the support of an STFC Ernest Rutherford Fellowship ST/R003726/1. JIV acknowledges support of CONICYT-PFCHA/Doctorado Nacional-21191829. This paper contributes to meeting the TESS Mission Level One Science Requirement: 'The TESS team shall assure that the masses of fifty (50) planets with radii less than 4 REarth are determined.' Funding for the TESS mission is provided by NASA's Science Mission Directorate. We acknowledge the use of public TESS data from pipelines at the TESS Science Office and at the TESS Science Processing Operations Center. This research has made use of the Exoplanet Follow-up Observation Program website, which is operated by the California Institute of Technology, under contract with the National Aeronautics and Space Administration under the Exoplanet Exploration Program. Resources supporting this work were provided by the NASA High-End Computing (HEC) Program through the NASA Advanced Supercomputing (NAS) Division at Ames Research Center for the production of the SPOC data products. This paper includes data collected by the TESS mission that are publicly available from the Mikulski Archive for Space Telescopes (MAST). Resources supporting this work were provided by the NASA High-End Computing (HEC) Program through the NASA Advanced Supercomputing (NAS) Division at Ames Research Center for the production of the SPOC data products. This work makes use of observations from the LCOGT network. Part of the LCOGT telescope time was granted by NOIRLab through the Mid-Scale Innovations Program (MSIP). MSIP is funded by NSF. The research leading to these results has received funding from the ARC grant for Concerted Research Actions, financed by the Wallonia-Brussels Federation. TRAPPIST is funded by the Belgian Fund for Scientific Research (Fond National de la Recherche Scientifique, FNRS) under the grant FRFC 2.5.594.09.F, with the participation of the Swiss National Science Foundation (SNF). MG and EJ are F.R.S.-FNRS Senior Research Associate. ASTEP benefited from the support of the French and Italian polar agencies IPEV and PNRA in the framework of the Concordia station program. TG, AA, LA, DM, and F-XS acknowledge support from Idex UCAJEDI (ANR-15-IDEX-01). Based on data collected under the NGTS project at the ESO La Silla Paranal Observatory. The NGTS facility is operated by the consortium institutes with support from the UK Science and Technology Facilities Council (STFC) projects ST/M001962/1 and ST/S002642/1. This work has made use of data from the European Space Agency (ESA) mission Gaia (https://www.cosmos.esa.int/gaia), processed by the Gaia Data Processing and Analysis Consortium (DPAC, https://www.cosmos.esa.int/web/gaia/dpac/consortium). Funding for the DPAC has been provided by national institutions, in particular, the institutions participating in the Gaia Multilateral Agreement. This work has been carried out in the framework of the PlanetS National Centres of Competence in Research (NCCR) supported by the Swiss National Science Foundation (SNSF). DATA AVAILABILITY. The TESS data used within this study are hosted and made publicly available by the Mikulski Archive for Space Telescopes (MAST, http://archive.stsci.edu/tess/). LCO, NGTS, and PEST observations are through Exoplanet Follow-up Observing Program for TESS (ExoFOP-TESS) website as community TOIs (cTOIs; https://exofop.ipac.caltech.edu/tess/target.php?id = 259377017). The models and analyses of transit timings were conducted using publicly available open software codes, ASTROPY (Astropy Collaboration 2013), AstroImageJ (Collins et al. 2017), BATMAN (Kreidberg 2015), EMCEE (Foreman-Mackey et al. 2013, 2019), GEORGE (Ambikasaran et al. 2014), IDL (Landsman 1993), LDTK (Parviainen & Aigrain 2015), Tapir (Jensen 2013), and TTVFast (Deck et al. 2014) Facilities used: CTIO:1.3 m, CTIO:1.5 m, CXO, Las Cumbres Observatory Global Telescope (LCOGT), TESS, Spitzer Space Telescope, ASTEP, NGTS, and TRAPPIST.

Additional details

Identifiers Related works Funding Dates Caltech Custom Metadata
Created:
August 22, 2023
Modified:
October 23, 2023