An orbital period of 0.94days for the hot-Jupiter planet WASP-18b

C. Hellier; D.~R. Anderson; A. Collier Cameron; M. Gillon; L. Hebb; P.~F.~L. Maxted; D. Queloz; B. Smalley; A.~H.~M.~J. Triaud; R.~G. West; D.~M. Wilson; S.~J. Bentley; B. Enoch; K. Horne; J. Irwin; T.~A. Lister; M. Mayor; N. Parley; F. Pepe; D.~L. Pollacco; D. Segransan; S. Udry; P.~J. Wheatley

doi:10.1038/nature08245

An orbital period of 0.94days for the hot-Jupiter planet WASP-18b

C. Hellier, D.~R. Anderson, A. Collier Cameron, M. Gillon, L. Hebb, P.~F.~L. Maxted, D. Queloz, B. Smalley, A.~H.~M.~J. Triaud, R.~G. West, D.~M. Wilson, S.~J. Bentley, B. Enoch, K. Horne, J. Irwin, T.~A. Lister, M. Mayor, N. Parley, F. Pepe, D.~L. PollaccoD. Segransan, S. Udry, P.~J. Wheatley

Physics and Astronomy

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

155 Citations (Scopus)

Abstract

The `hot Jupiters' that abound in lists of known extrasolar planets are thought to have formed far from their host stars, but migrate inwards through interactions with the proto-planetary disk from which they were born, or by an alternative mechanism such as planet-planet scattering. The hot Jupiters closest to their parent stars, at orbital distances of only 0.02 astronomical units, have strong tidal interactions, and systems such as OGLE-TR-56 have been suggested as tests of tidal dissipation theory. Here we report the discovery of planet WASP-18b with an orbital period of 0.94days and a mass of ten Jupiter masses (10M$_Jup$), resulting in a tidal interaction an order of magnitude stronger than that of planet OGLE-TR-56b. Under the assumption that the tidal-dissipation parameter Q of the host star is of the order of 10$^6$, as measured for Solar System bodies and binary stars and as often applied to extrasolar planets, WASP-18b will be spiralling inwards on a timescale less than a thousandth that of the lifetime of its host star. Therefore either WASP-18 is in a rare, exceptionally short-lived state, or the tidal dissipation in this system (and possibly other hot-Jupiter systems) must be much weaker than in the Solar System.

Original language	English
Pages (from-to)	1098-1100
Number of pages	3
Journal	Nature
Volume	460
DOIs	https://doi.org/10.1038/nature08245
Publication status	Published - 1 Aug 2009

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Hellier, C., Anderson, D. R., Collier Cameron, A., Gillon, M., Hebb, L., Maxted, P. F. L., Queloz, D., Smalley, B., Triaud, A. H. M. J., West, R. G., Wilson, D. M., Bentley, S. J., Enoch, B., Horne, K., Irwin, J., Lister, T. A., Mayor, M., Parley, N., Pepe, F., ... Wheatley, P. J. (2009). An orbital period of 0.94days for the hot-Jupiter planet WASP-18b. Nature, 460, 1098-1100. https://doi.org/10.1038/nature08245

@article{a1070e95dbd1422a8ce6f3beb52722db,

title = "An orbital period of 0.94days for the hot-Jupiter planet WASP-18b",

abstract = "The `hot Jupiters' that abound in lists of known extrasolar planets are thought to have formed far from their host stars, but migrate inwards through interactions with the proto-planetary disk from which they were born, or by an alternative mechanism such as planet-planet scattering. The hot Jupiters closest to their parent stars, at orbital distances of only 0.02 astronomical units, have strong tidal interactions, and systems such as OGLE-TR-56 have been suggested as tests of tidal dissipation theory. Here we report the discovery of planet WASP-18b with an orbital period of 0.94days and a mass of ten Jupiter masses (10M$_Jup$), resulting in a tidal interaction an order of magnitude stronger than that of planet OGLE-TR-56b. Under the assumption that the tidal-dissipation parameter Q of the host star is of the order of 10$^6$, as measured for Solar System bodies and binary stars and as often applied to extrasolar planets, WASP-18b will be spiralling inwards on a timescale less than a thousandth that of the lifetime of its host star. Therefore either WASP-18 is in a rare, exceptionally short-lived state, or the tidal dissipation in this system (and possibly other hot-Jupiter systems) must be much weaker than in the Solar System. ",

author = "C. Hellier and D.~R. Anderson and {Collier Cameron}, A. and M. Gillon and L. Hebb and P.~F.~L. Maxted and D. Queloz and B. Smalley and A.~H.~M.~J. Triaud and R.~G. West and D.~M. Wilson and S.~J. Bentley and B. Enoch and K. Horne and J. Irwin and T.~A. Lister and M. Mayor and N. Parley and F. Pepe and D.~L. Pollacco and D. Segransan and S. Udry and P.~J. Wheatley",

year = "2009",

month = aug,

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doi = "10.1038/nature08245",

language = "English",

volume = "460",

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Hellier, C, Anderson, DR, Collier Cameron, A, Gillon, M, Hebb, L, Maxted, PFL, Queloz, D, Smalley, B, Triaud, AHMJ, West, RG, Wilson, DM, Bentley, SJ, Enoch, B, Horne, K, Irwin, J, Lister, TA, Mayor, M, Parley, N, Pepe, F, Pollacco, DL, Segransan, D, Udry, S & Wheatley, PJ 2009, 'An orbital period of 0.94days for the hot-Jupiter planet WASP-18b', Nature, vol. 460, pp. 1098-1100. https://doi.org/10.1038/nature08245

TY - JOUR

T1 - An orbital period of 0.94days for the hot-Jupiter planet WASP-18b

AU - Hellier, C.

AU - Anderson, D.~R.

AU - Collier Cameron, A.

AU - Gillon, M.

AU - Hebb, L.

AU - Maxted, P.~F.~L.

AU - Queloz, D.

AU - Smalley, B.

AU - Triaud, A.~H.~M.~J.

AU - West, R.~G.

AU - Wilson, D.~M.

AU - Bentley, S.~J.

AU - Enoch, B.

AU - Horne, K.

AU - Irwin, J.

AU - Lister, T.~A.

AU - Mayor, M.

AU - Parley, N.

AU - Pepe, F.

AU - Pollacco, D.~L.

AU - Segransan, D.

AU - Udry, S.

AU - Wheatley, P.~J.

PY - 2009/8/1

Y1 - 2009/8/1

N2 - The `hot Jupiters' that abound in lists of known extrasolar planets are thought to have formed far from their host stars, but migrate inwards through interactions with the proto-planetary disk from which they were born, or by an alternative mechanism such as planet-planet scattering. The hot Jupiters closest to their parent stars, at orbital distances of only 0.02 astronomical units, have strong tidal interactions, and systems such as OGLE-TR-56 have been suggested as tests of tidal dissipation theory. Here we report the discovery of planet WASP-18b with an orbital period of 0.94days and a mass of ten Jupiter masses (10M$_Jup$), resulting in a tidal interaction an order of magnitude stronger than that of planet OGLE-TR-56b. Under the assumption that the tidal-dissipation parameter Q of the host star is of the order of 10$^6$, as measured for Solar System bodies and binary stars and as often applied to extrasolar planets, WASP-18b will be spiralling inwards on a timescale less than a thousandth that of the lifetime of its host star. Therefore either WASP-18 is in a rare, exceptionally short-lived state, or the tidal dissipation in this system (and possibly other hot-Jupiter systems) must be much weaker than in the Solar System.

AB - The `hot Jupiters' that abound in lists of known extrasolar planets are thought to have formed far from their host stars, but migrate inwards through interactions with the proto-planetary disk from which they were born, or by an alternative mechanism such as planet-planet scattering. The hot Jupiters closest to their parent stars, at orbital distances of only 0.02 astronomical units, have strong tidal interactions, and systems such as OGLE-TR-56 have been suggested as tests of tidal dissipation theory. Here we report the discovery of planet WASP-18b with an orbital period of 0.94days and a mass of ten Jupiter masses (10M$_Jup$), resulting in a tidal interaction an order of magnitude stronger than that of planet OGLE-TR-56b. Under the assumption that the tidal-dissipation parameter Q of the host star is of the order of 10$^6$, as measured for Solar System bodies and binary stars and as often applied to extrasolar planets, WASP-18b will be spiralling inwards on a timescale less than a thousandth that of the lifetime of its host star. Therefore either WASP-18 is in a rare, exceptionally short-lived state, or the tidal dissipation in this system (and possibly other hot-Jupiter systems) must be much weaker than in the Solar System.

U2 - 10.1038/nature08245

DO - 10.1038/nature08245

M3 - Article

SN - 0028-0836

VL - 460

SP - 1098

EP - 1100

JO - Nature

JF - Nature

ER -

An orbital period of 0.94days for the hot-Jupiter planet WASP-18b

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