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Main Authors: Rothmeier, Marvin, Adams, Elisabeth R., Schindler, Karsten, Beck, Andre, Jackson, Brian, Morgenthaler, Jeffrey P., Sickafoose, Amanda A., Barker, Malia, Mancini, Luigi, Southworth, John, Evans, Daniel, Krabbe, Alfred
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.13937
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author Rothmeier, Marvin
Adams, Elisabeth R.
Schindler, Karsten
Beck, Andre
Jackson, Brian
Morgenthaler, Jeffrey P.
Sickafoose, Amanda A.
Barker, Malia
Mancini, Luigi
Southworth, John
Evans, Daniel
Krabbe, Alfred
author_facet Rothmeier, Marvin
Adams, Elisabeth R.
Schindler, Karsten
Beck, Andre
Jackson, Brian
Morgenthaler, Jeffrey P.
Sickafoose, Amanda A.
Barker, Malia
Mancini, Luigi
Southworth, John
Evans, Daniel
Krabbe, Alfred
contents TrES-5b is one of only three ultra-hot Jupiters (UHJs) with suggestions of a possibly decreasing orbital period that have persisted through multiple independent analyses (G. Maciejewski et al. 2021; S. R. Hagey et al. 2022; E. S. Ivshina & J. N. Winn 2022; W. Wang et al. 2024; L. C. Yeh et al. 2024). While WASP-12 b's decreasing period is well-explained by tidally induced orbital decay (K. C. Patra et al. 2017), and stellar acceleration has been proposed for WASP-4 b (L. G. Bouma et al. 2020), the cause of the apparent trend for TrES-5 b has not been satisfactorily explained. This work extends the previous observations with 14 new ground-based transits from 2016-2024 and two newly-published midtimes for data from 2007 and 2009. Four TESS sectors (75, 77, 82, and 84) have also been included for the first time. With the new data, the case for a decreasing orbital period is much weaker than before. The revised rate of period change, dP/dt=-5.3 +/- 2.2 ms yr^-1, is less than half that was found in previous work and the preference for a quadratic over a linear model, as measured through Delta BIC_LQ, has been falling since 2020, with a current value of 11. Furthermore, these results are not robust to outliers; removing a single early transit midtime causes the effect to vanish (Delta BIC_LQ = -1). Additionally, no significant periodic signals in the transit timing data are identified. The current data are well explained by a linear ephemeris.
format Preprint
id arxiv_https___arxiv_org_abs_2512_13937
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Doomed Worlds II: Reassessing Suggestions of Orbital Decay for TrES-5 b
Rothmeier, Marvin
Adams, Elisabeth R.
Schindler, Karsten
Beck, Andre
Jackson, Brian
Morgenthaler, Jeffrey P.
Sickafoose, Amanda A.
Barker, Malia
Mancini, Luigi
Southworth, John
Evans, Daniel
Krabbe, Alfred
Earth and Planetary Astrophysics
TrES-5b is one of only three ultra-hot Jupiters (UHJs) with suggestions of a possibly decreasing orbital period that have persisted through multiple independent analyses (G. Maciejewski et al. 2021; S. R. Hagey et al. 2022; E. S. Ivshina & J. N. Winn 2022; W. Wang et al. 2024; L. C. Yeh et al. 2024). While WASP-12 b's decreasing period is well-explained by tidally induced orbital decay (K. C. Patra et al. 2017), and stellar acceleration has been proposed for WASP-4 b (L. G. Bouma et al. 2020), the cause of the apparent trend for TrES-5 b has not been satisfactorily explained. This work extends the previous observations with 14 new ground-based transits from 2016-2024 and two newly-published midtimes for data from 2007 and 2009. Four TESS sectors (75, 77, 82, and 84) have also been included for the first time. With the new data, the case for a decreasing orbital period is much weaker than before. The revised rate of period change, dP/dt=-5.3 +/- 2.2 ms yr^-1, is less than half that was found in previous work and the preference for a quadratic over a linear model, as measured through Delta BIC_LQ, has been falling since 2020, with a current value of 11. Furthermore, these results are not robust to outliers; removing a single early transit midtime causes the effect to vanish (Delta BIC_LQ = -1). Additionally, no significant periodic signals in the transit timing data are identified. The current data are well explained by a linear ephemeris.
title Doomed Worlds II: Reassessing Suggestions of Orbital Decay for TrES-5 b
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2512.13937