A search for transit-timing variations in the transiting hot-Jupiter systems HIP 65, NGTS-6, NGTS-10, and WASP-173

A W Griffiths; J Southworth; L Alegre; F Amadio; M I Andersen; A J Barker; M Basilicata; M Bonavita; V Bozza; M J Burgdorf; R E Cannon; G Columba; M Dominik; A Donaldson; R Figuera Jaimes; T C Hinse; M Hundertmark; U G Jørgensen; E Khalouei; P Longa-Peña; L Mancini; F Manni; B Murphy; N Peixinho; M Rabus; S Rahvar; H Rendell-Bhatti; P Rota; A Rożek; S Sajadian; J Skottfelt; C Snodgrass; J Tregloan-Reed

doi:10.1093/mnras/staf2057

A search for transit-timing variations in the transiting hot-Jupiter systems HIP 65, NGTS-6, NGTS-10, and WASP-173

A W Griffiths
, J Southworth
, L Alegre
, F Amadio
, M I Andersen
, A J Barker
, M Basilicata
, M Bonavita
, V Bozza
, M J Burgdorf
, R E Cannon
, G Columba
, M Dominik
, A Donaldson
, R Figuera Jaimes
, T C Hinse
, M Hundertmark
, U G Jørgensen
, E Khalouei
, P Longa-Peña

L Mancini, F Manni, B Murphy, N Peixinho, M Rabus, S Rahvar, H Rendell-Bhatti, P Rota, A Rożek, S Sajadian, J Skottfelt, C Snodgrass, J Tregloan-Reed

School of Physics, Engineering & Computer Science

Research output: Contribution to journal › Article › peer-review

Abstract

Hot Jupiters are Jupiter-mass planets with orbital periods of less than 10 d. Their short orbital separations make tidal dissipation within the stellar host especially efficient, potentially leading to a measurable evolution of the orbit. One possible manifestation of this is orbital decay, which presents itself observationally through variations in the orbital period and thus times of transit. Here, we select four promising exoplanetary systems for detecting this effect: HIP 65, NGTS-6, NGTS-10, and WASP-173. We present 33 new transit light curves taken with the 1.54 m Danish Telescope, and analyse these alongside photometric data from the Transiting Exoplanet Survey Satellite and transit-timing data from the literature. We construct two ephemeris models for each target: a linear ephemeris and a shrinking orbital period due to tidal decay. The linear ephemeris is preferred for three of the four models – the highest significance for the quadratic ephemeris is over 3 for WASP-173. We compare these results to theoretical predictions for tidal dissipation of gravity waves in radiation zones, and find that wave breaking is predicted only in WASP-173, making rapid decay plausible in this system but unclear in the other three. The sensitivity of transit timings to orbital decay depends on the square of the time interval covered by available observations, so our results establish a useful baseline against which future measurements can be compared. NGTS-6 and NGTS-10 are important objects for future study as they are in the first field to be observed by the upcoming PLATO mission.

Original language	English
Pages (from-to)	1-14
Number of pages	14
Journal	Monthly Notices of the Royal Astronomical Society
Volume	545
Issue number	1
Early online date	22 Nov 2025
DOIs	https://doi.org/10.1093/mnras/staf2057
Publication status	Published - 31 Jan 2026

Keywords

techniques: photometric

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10.1093/mnras/staf2057Licence: CC BY

Final_versionFinal published version, 2.47 MBLicence: CC BY

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Griffiths, A. W., Southworth, J., Alegre, L., Amadio, F., Andersen, M. I., Barker, A. J., Basilicata, M., Bonavita, M., Bozza, V., Burgdorf, M. J., Cannon, R. E., Columba, G., Dominik, M., Donaldson, A., Figuera Jaimes, R., Hinse, T. C., Hundertmark, M., Jørgensen, U. G., Khalouei, E., ... Tregloan-Reed, J. (2026). A search for transit-timing variations in the transiting hot-Jupiter systems HIP 65, NGTS-6, NGTS-10, and WASP-173. Monthly Notices of the Royal Astronomical Society, 545(1), 1-14. https://doi.org/10.1093/mnras/staf2057

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title = "A search for transit-timing variations in the transiting hot-Jupiter systems HIP 65, NGTS-6, NGTS-10, and WASP-173",

abstract = "Hot Jupiters are Jupiter-mass planets with orbital periods of less than 10 d. Their short orbital separations make tidal dissipation within the stellar host especially efficient, potentially leading to a measurable evolution of the orbit. One possible manifestation of this is orbital decay, which presents itself observationally through variations in the orbital period and thus times of transit. Here, we select four promising exoplanetary systems for detecting this effect: HIP 65, NGTS-6, NGTS-10, and WASP-173. We present 33 new transit light curves taken with the 1.54 m Danish Telescope, and analyse these alongside photometric data from the Transiting Exoplanet Survey Satellite and transit-timing data from the literature. We construct two ephemeris models for each target: a linear ephemeris and a shrinking orbital period due to tidal decay. The linear ephemeris is preferred for three of the four models – the highest significance for the quadratic ephemeris is over 3 for WASP-173. We compare these results to theoretical predictions for tidal dissipation of gravity waves in radiation zones, and find that wave breaking is predicted only in WASP-173, making rapid decay plausible in this system but unclear in the other three. The sensitivity of transit timings to orbital decay depends on the square of the time interval covered by available observations, so our results establish a useful baseline against which future measurements can be compared. NGTS-6 and NGTS-10 are important objects for future study as they are in the first field to be observed by the upcoming PLATO mission.",

keywords = "techniques: photometric",

author = "Griffiths, \{A W\} and J Southworth and L Alegre and F Amadio and Andersen, \{M I\} and Barker, \{A J\} and M Basilicata and M Bonavita and V Bozza and Burgdorf, \{M J\} and Cannon, \{R E\} and G Columba and M Dominik and A Donaldson and R Figuera Jaimes and Hinse, \{T C\} and M Hundertmark and J{\o}rgensen, \{U G\} and E Khalouei and P Longa-Pe{\~n}a and L Mancini and F Manni and B Murphy and N Peixinho and M Rabus and S Rahvar and H Rendell-Bhatti and P Rota and A Ro{\.z}ek and S Sajadian and J Skottfelt and C Snodgrass and J Tregloan-Reed",

note = "{\textcopyright} The Author(s) 2025. Published by Oxford University Press on behalf of Royal Astronomical Society. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/)",

year = "2026",

month = jan,

day = "31",

doi = "10.1093/mnras/staf2057",

language = "English",

volume = "545",

pages = "1--14",

journal = "Monthly Notices of the Royal Astronomical Society",

issn = "0035-8711",

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Griffiths, AW, Southworth, J, Alegre, L, Amadio, F, Andersen, MI, Barker, AJ, Basilicata, M, Bonavita, M, Bozza, V, Burgdorf, MJ, Cannon, RE, Columba, G, Dominik, M, Donaldson, A, Figuera Jaimes, R, Hinse, TC, Hundertmark, M, Jørgensen, UG, Khalouei, E, Longa-Peña, P, Mancini, L, Manni, F, Murphy, B, Peixinho, N, Rabus, M, Rahvar, S, Rendell-Bhatti, H, Rota, P, Rożek, A, Sajadian, S, Skottfelt, J, Snodgrass, C & Tregloan-Reed, J 2026, 'A search for transit-timing variations in the transiting hot-Jupiter systems HIP 65, NGTS-6, NGTS-10, and WASP-173', Monthly Notices of the Royal Astronomical Society, vol. 545, no. 1, pp. 1-14. https://doi.org/10.1093/mnras/staf2057

TY - JOUR

T1 - A search for transit-timing variations in the transiting hot-Jupiter systems HIP 65, NGTS-6, NGTS-10, and WASP-173

AU - Griffiths, A W

AU - Southworth, J

AU - Alegre, L

AU - Amadio, F

AU - Andersen, M I

AU - Barker, A J

AU - Basilicata, M

AU - Bonavita, M

AU - Bozza, V

AU - Burgdorf, M J

AU - Cannon, R E

AU - Columba, G

AU - Dominik, M

AU - Donaldson, A

AU - Figuera Jaimes, R

AU - Hinse, T C

AU - Hundertmark, M

AU - Jørgensen, U G

AU - Khalouei, E

AU - Longa-Peña, P

AU - Mancini, L

AU - Manni, F

AU - Murphy, B

AU - Peixinho, N

AU - Rabus, M

AU - Rahvar, S

AU - Rendell-Bhatti, H

AU - Rota, P

AU - Rożek, A

AU - Sajadian, S

AU - Skottfelt, J

AU - Snodgrass, C

AU - Tregloan-Reed, J

N1 - © The Author(s) 2025. Published by Oxford University Press on behalf of Royal Astronomical Society. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/)

PY - 2026/1/31

Y1 - 2026/1/31

N2 - Hot Jupiters are Jupiter-mass planets with orbital periods of less than 10 d. Their short orbital separations make tidal dissipation within the stellar host especially efficient, potentially leading to a measurable evolution of the orbit. One possible manifestation of this is orbital decay, which presents itself observationally through variations in the orbital period and thus times of transit. Here, we select four promising exoplanetary systems for detecting this effect: HIP 65, NGTS-6, NGTS-10, and WASP-173. We present 33 new transit light curves taken with the 1.54 m Danish Telescope, and analyse these alongside photometric data from the Transiting Exoplanet Survey Satellite and transit-timing data from the literature. We construct two ephemeris models for each target: a linear ephemeris and a shrinking orbital period due to tidal decay. The linear ephemeris is preferred for three of the four models – the highest significance for the quadratic ephemeris is over 3 for WASP-173. We compare these results to theoretical predictions for tidal dissipation of gravity waves in radiation zones, and find that wave breaking is predicted only in WASP-173, making rapid decay plausible in this system but unclear in the other three. The sensitivity of transit timings to orbital decay depends on the square of the time interval covered by available observations, so our results establish a useful baseline against which future measurements can be compared. NGTS-6 and NGTS-10 are important objects for future study as they are in the first field to be observed by the upcoming PLATO mission.

AB - Hot Jupiters are Jupiter-mass planets with orbital periods of less than 10 d. Their short orbital separations make tidal dissipation within the stellar host especially efficient, potentially leading to a measurable evolution of the orbit. One possible manifestation of this is orbital decay, which presents itself observationally through variations in the orbital period and thus times of transit. Here, we select four promising exoplanetary systems for detecting this effect: HIP 65, NGTS-6, NGTS-10, and WASP-173. We present 33 new transit light curves taken with the 1.54 m Danish Telescope, and analyse these alongside photometric data from the Transiting Exoplanet Survey Satellite and transit-timing data from the literature. We construct two ephemeris models for each target: a linear ephemeris and a shrinking orbital period due to tidal decay. The linear ephemeris is preferred for three of the four models – the highest significance for the quadratic ephemeris is over 3 for WASP-173. We compare these results to theoretical predictions for tidal dissipation of gravity waves in radiation zones, and find that wave breaking is predicted only in WASP-173, making rapid decay plausible in this system but unclear in the other three. The sensitivity of transit timings to orbital decay depends on the square of the time interval covered by available observations, so our results establish a useful baseline against which future measurements can be compared. NGTS-6 and NGTS-10 are important objects for future study as they are in the first field to be observed by the upcoming PLATO mission.

KW - techniques: photometric

U2 - 10.1093/mnras/staf2057

DO - 10.1093/mnras/staf2057

M3 - Article

SN - 0035-8711

VL - 545

SP - 1

EP - 14

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 1

ER -

A search for transit-timing variations in the transiting hot-Jupiter systems HIP 65, NGTS-6, NGTS-10, and WASP-173

Abstract

Keywords

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