An ancient extrasolar system with five sub-Earth-size planets

T. L. Campante; T. Barclay; J. J. Swift; D. Huber; V. Zh. Adibekyan; W. Cochran; C. J. Burke; H. Isaacson; E. V. Quintana; Guy Davies; V. Silva Aguirre; D. Ragozzine; R. Riddle; C. Baranec; S. Basu; W. J. Chaplin; J. Christensen-dalsgaard; T. S. Metcalfe; T. R. Bedding; R. Handberg; D. Stello; J. M. Brewer; S. Hekker; C. Karoff; R. Kolbl; N. M. Law; M. Lundkvist; A. Miglio; J. F. Rowe; N. C. Santos; C. Van Laerhoven; T. Arentoft; Y. P. Elsworth; D. A. Fischer; S. D. Kawaler; H. Kjeldsen; M. N. Lund; G. W. Marcy; S. G. Sousa; A. Sozzetti; T. R. White

doi:10.1088/0004-637X/799/2/170

An ancient extrasolar system with five sub-Earth-size planets

T. L. Campante, T. Barclay, J. J. Swift, D. Huber, V. Zh. Adibekyan, W. Cochran, C. J. Burke, H. Isaacson, E. V. Quintana, Guy Davies, V. Silva Aguirre, D. Ragozzine, R. Riddle, C. Baranec, S. Basu, W. J. Chaplin, J. Christensen-dalsgaard, T. S. Metcalfe, T. R. Bedding, R. HandbergD. Stello, J. M. Brewer, S. Hekker, C. Karoff, R. Kolbl, N. M. Law, M. Lundkvist, A. Miglio, J. F. Rowe, N. C. Santos, C. Van Laerhoven, T. Arentoft, Y. P. Elsworth, D. A. Fischer, S. D. Kawaler, H. Kjeldsen, M. N. Lund, G. W. Marcy, S. G. Sousa, A. Sozzetti, T. R. White

Physics and Astronomy

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

99 Citations (Scopus)

Abstract

The chemical composition of stars hosting small exoplanets (with radii less than four Earth radii) appears to be more diverse than that of gas-giant hosts, which tend to be metal-rich. This implies that small, including Earth-size, planets may have readily formed at earlier epochs in the universe's history when metals were more scarce. We report Kepler spacecraft observations of Kepler-444, a metal-poor Sun-like star from the old population of the Galactic thick disk and the host to a compact system of five transiting planets with sizes between those of Mercury and Venus. We validate this system as a true five-planet system orbiting the target star and provide a detailed characterization of its planetary and orbital parameters based on an analysis of the transit photometry. Kepler-444 is the densest star with detected solar-like oscillations. We use asteroseismology to directly measure a precise age of 11.2 ± 1.0 Gyr for the host star, indicating that Kepler-444 formed when the universe was less than 20% of its current age and making it the oldest known system of terrestrial-size planets. We thus show that Earth-size planets have formed throughout most of the universe's 13.8 billion year history, leaving open the possibility for the existence of ancient life in the Galaxy. The age of Kepler-444 not only suggests that thick-disk stars were among the hosts to the first Galactic planets, but may also help to pinpoint the beginning of the era of planet formation.

Original language	English
Article number	170
Number of pages	17
Journal	The Astrophysical Journal
Volume	799
Issue number	2
DOIs	https://doi.org/10.1088/0004-637X/799/2/170
Publication status	Published - 27 Jan 2015

Keywords

Galaxy: disk
planetary systems
stars: individual (HIP 94931)
stars: late-type
stars: oscillations
techniques: photometric

Access to Document

10.1088/0004-637X/799/2/170Licence: None: All rights reserved

https://doi.org/10.1088/0004-637X/799/2/170Licence: None: All rights reserved

Sounding the Stars---The Birmingham and Queen Mary Seismology Programme
Elsworth, Y., Chaplin, B. & Miglio, A.
SCIENCE & TECHNOLOGY FACILITIES COUNCIL
1/04/12 → 31/03/15
Project: Research Councils

Cite this

Campante, T. L., Barclay, T., Swift, J. J., Huber, D., Adibekyan, V. Z., Cochran, W., Burke, C. J., Isaacson, H., Quintana, E. V., Davies, G., Silva Aguirre, V., Ragozzine, D., Riddle, R., Baranec, C., Basu, S., Chaplin, W. J., Christensen-dalsgaard, J., Metcalfe, T. S., Bedding, T. R., ... White, T. R. (2015). An ancient extrasolar system with five sub-Earth-size planets. The Astrophysical Journal, 799(2), Article 170. https://doi.org/10.1088/0004-637X/799/2/170

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title = "An ancient extrasolar system with five sub-Earth-size planets",

abstract = "The chemical composition of stars hosting small exoplanets (with radii less than four Earth radii) appears to be more diverse than that of gas-giant hosts, which tend to be metal-rich. This implies that small, including Earth-size, planets may have readily formed at earlier epochs in the universe's history when metals were more scarce. We report Kepler spacecraft observations of Kepler-444, a metal-poor Sun-like star from the old population of the Galactic thick disk and the host to a compact system of five transiting planets with sizes between those of Mercury and Venus. We validate this system as a true five-planet system orbiting the target star and provide a detailed characterization of its planetary and orbital parameters based on an analysis of the transit photometry. Kepler-444 is the densest star with detected solar-like oscillations. We use asteroseismology to directly measure a precise age of 11.2 ± 1.0 Gyr for the host star, indicating that Kepler-444 formed when the universe was less than 20% of its current age and making it the oldest known system of terrestrial-size planets. We thus show that Earth-size planets have formed throughout most of the universe's 13.8 billion year history, leaving open the possibility for the existence of ancient life in the Galaxy. The age of Kepler-444 not only suggests that thick-disk stars were among the hosts to the first Galactic planets, but may also help to pinpoint the beginning of the era of planet formation.",

keywords = "Galaxy: disk, planetary systems, stars: individual (HIP 94931), stars: late-type, stars: oscillations, techniques: photometric",

author = "Campante, {T. L.} and T. Barclay and Swift, {J. J.} and D. Huber and Adibekyan, {V. Zh.} and W. Cochran and Burke, {C. J.} and H. Isaacson and Quintana, {E. V.} and Guy Davies and {Silva Aguirre}, V. and D. Ragozzine and R. Riddle and C. Baranec and S. Basu and Chaplin, {W. J.} and J. Christensen-dalsgaard and Metcalfe, {T. S.} and Bedding, {T. R.} and R. Handberg and D. Stello and Brewer, {J. M.} and S. Hekker and C. Karoff and R. Kolbl and Law, {N. M.} and M. Lundkvist and A. Miglio and Rowe, {J. F.} and Santos, {N. C.} and {Van Laerhoven}, C. and T. Arentoft and Elsworth, {Y. P.} and Fischer, {D. A.} and Kawaler, {S. D.} and H. Kjeldsen and Lund, {M. N.} and Marcy, {G. W.} and Sousa, {S. G.} and A. Sozzetti and White, {T. R.}",

year = "2015",

month = jan,

day = "27",

doi = "10.1088/0004-637X/799/2/170",

language = "English",

volume = "799",

journal = "The Astrophysical Journal",

issn = "0004-637X",

publisher = "Institute of Physics Publishing Ltd",

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Campante, TL, Barclay, T, Swift, JJ, Huber, D, Adibekyan, VZ, Cochran, W, Burke, CJ, Isaacson, H, Quintana, EV, Davies, G, Silva Aguirre, V, Ragozzine, D, Riddle, R, Baranec, C, Basu, S, Chaplin, WJ, Christensen-dalsgaard, J, Metcalfe, TS, Bedding, TR, Handberg, R, Stello, D, Brewer, JM, Hekker, S, Karoff, C, Kolbl, R, Law, NM, Lundkvist, M, Miglio, A, Rowe, JF, Santos, NC, Van Laerhoven, C, Arentoft, T, Elsworth, YP, Fischer, DA, Kawaler, SD, Kjeldsen, H, Lund, MN, Marcy, GW, Sousa, SG, Sozzetti, A & White, TR 2015, 'An ancient extrasolar system with five sub-Earth-size planets', The Astrophysical Journal, vol. 799, no. 2, 170. https://doi.org/10.1088/0004-637X/799/2/170

TY - JOUR

T1 - An ancient extrasolar system with five sub-Earth-size planets

AU - Campante, T. L.

AU - Barclay, T.

AU - Swift, J. J.

AU - Huber, D.

AU - Adibekyan, V. Zh.

AU - Cochran, W.

AU - Burke, C. J.

AU - Isaacson, H.

AU - Quintana, E. V.

AU - Davies, Guy

AU - Silva Aguirre, V.

AU - Ragozzine, D.

AU - Riddle, R.

AU - Baranec, C.

AU - Basu, S.

AU - Chaplin, W. J.

AU - Christensen-dalsgaard, J.

AU - Metcalfe, T. S.

AU - Bedding, T. R.

AU - Handberg, R.

AU - Stello, D.

AU - Brewer, J. M.

AU - Hekker, S.

AU - Karoff, C.

AU - Kolbl, R.

AU - Law, N. M.

AU - Lundkvist, M.

AU - Miglio, A.

AU - Rowe, J. F.

AU - Santos, N. C.

AU - Van Laerhoven, C.

AU - Arentoft, T.

AU - Elsworth, Y. P.

AU - Fischer, D. A.

AU - Kawaler, S. D.

AU - Kjeldsen, H.

AU - Lund, M. N.

AU - Marcy, G. W.

AU - Sousa, S. G.

AU - Sozzetti, A.

AU - White, T. R.

PY - 2015/1/27

Y1 - 2015/1/27

N2 - The chemical composition of stars hosting small exoplanets (with radii less than four Earth radii) appears to be more diverse than that of gas-giant hosts, which tend to be metal-rich. This implies that small, including Earth-size, planets may have readily formed at earlier epochs in the universe's history when metals were more scarce. We report Kepler spacecraft observations of Kepler-444, a metal-poor Sun-like star from the old population of the Galactic thick disk and the host to a compact system of five transiting planets with sizes between those of Mercury and Venus. We validate this system as a true five-planet system orbiting the target star and provide a detailed characterization of its planetary and orbital parameters based on an analysis of the transit photometry. Kepler-444 is the densest star with detected solar-like oscillations. We use asteroseismology to directly measure a precise age of 11.2 ± 1.0 Gyr for the host star, indicating that Kepler-444 formed when the universe was less than 20% of its current age and making it the oldest known system of terrestrial-size planets. We thus show that Earth-size planets have formed throughout most of the universe's 13.8 billion year history, leaving open the possibility for the existence of ancient life in the Galaxy. The age of Kepler-444 not only suggests that thick-disk stars were among the hosts to the first Galactic planets, but may also help to pinpoint the beginning of the era of planet formation.

AB - The chemical composition of stars hosting small exoplanets (with radii less than four Earth radii) appears to be more diverse than that of gas-giant hosts, which tend to be metal-rich. This implies that small, including Earth-size, planets may have readily formed at earlier epochs in the universe's history when metals were more scarce. We report Kepler spacecraft observations of Kepler-444, a metal-poor Sun-like star from the old population of the Galactic thick disk and the host to a compact system of five transiting planets with sizes between those of Mercury and Venus. We validate this system as a true five-planet system orbiting the target star and provide a detailed characterization of its planetary and orbital parameters based on an analysis of the transit photometry. Kepler-444 is the densest star with detected solar-like oscillations. We use asteroseismology to directly measure a precise age of 11.2 ± 1.0 Gyr for the host star, indicating that Kepler-444 formed when the universe was less than 20% of its current age and making it the oldest known system of terrestrial-size planets. We thus show that Earth-size planets have formed throughout most of the universe's 13.8 billion year history, leaving open the possibility for the existence of ancient life in the Galaxy. The age of Kepler-444 not only suggests that thick-disk stars were among the hosts to the first Galactic planets, but may also help to pinpoint the beginning of the era of planet formation.

KW - Galaxy: disk

KW - planetary systems

KW - stars: individual (HIP 94931)

KW - stars: late-type

KW - stars: oscillations

KW - techniques: photometric

UR - http://stacks.iop.org/0004-637X/799/i=2/a=170?key=crossref.60246eab1eced3f3d180db66e3795068

U2 - 10.1088/0004-637X/799/2/170

DO - 10.1088/0004-637X/799/2/170

M3 - Article

SN - 0004-637X

VL - 799

JO - The Astrophysical Journal

JF - The Astrophysical Journal

IS - 2

M1 - 170

ER -

An ancient extrasolar system with five sub-Earth-size planets

Abstract

Keywords

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Projects

Sounding the Stars---The Birmingham and Queen Mary Seismology Programme

Cite this