The CHEOPS mission

W. Benz; C. Broeg; A. Fortier; N. Rando; T. Beck; M. Beck; D. Queloz; D. Ehrenreich; P. F.L. Maxted; K. G. Isaak; N. Billot; Y. Alibert; R. Alonso; C. António; J. Asquier; T. Bandy; T. Bárczy; D. Barrado; S. C.C. Barros; W. Baumjohann; A. Bekkelien; M. Bergomi; F. Biondi; X. Bonfils; L. Borsato; A. Brandeker; M. D. Busch; J. Cabrera; V. Cessa; S. Charnoz; B. Chazelas; A. Collier Cameron; C. Corral Van Damme; D. Cortes; M. B. Davies; M. Deleuil; A. Deline; L. Delrez; O. Demangeon; B. O. Demory; A. Erikson; J. Farinato; L. Fossati; M. Fridlund; D. Futyan; D. Gandolfi; A. Garcia Munoz; M. Gillon; P. Guterman; A. Gutierrez; J. Hasiba; K. Heng; E. Hernandez; S. Hoyer; L. L. Kiss; Z. Kovacs; T. Kuntzer; J. Laskar; A. Lecavelier des Etangs; M. Lendl; A. López; I. Lora; C. Lovis; T. Lüftinger; D. Magrin; L. Malvasio; L. Marafatto; H. Michaelis; D. de Miguel; D. Modrego; M. Munari; V. Nascimbeni; G. Olofsson; H. Ottacher; R. Ottensamer; I. Pagano; R. Palacios; E. Pallé; G. Peter; D. Piazza; G. Piotto; A. Pizarro; D. Pollaco; R. Ragazzoni; F. Ratti; H. Rauer; I. Ribas; M. Rieder; R. Rohlfs; F. Safa; M. Salatti; N. C. Santos; G. Scandariato; D. Ségransan; A. E. Simon; A. M.S. Smith; M. Sordet; S. G. Sousa; M. Steller; G. M. Szabó; J. Szoke; N. Thomas; M. Tschentscher; S. Udry; V. Van Grootel; V. Viotto; I. Walter; N. A. Walton; F. Wildi; D. Wolter

doi:10.1007/s10686-020-09679-4

The CHEOPS mission

W. Benz
, C. Broeg
, A. Fortier
, N. Rando
, T. Beck
, M. Beck
, D. Queloz
, D. Ehrenreich
, P. F.L. Maxted
, K. G. Isaak
, N. Billot
, Y. Alibert
, R. Alonso
, C. António
, J. Asquier
, T. Bandy
, T. Bárczy
, D. Barrado
, S. C.C. Barros
, W. Baumjohann

A. Bekkelien, M. Bergomi, F. Biondi, X. Bonfils, L. Borsato, A. Brandeker, M. D. Busch, J. Cabrera, V. Cessa, S. Charnoz, B. Chazelas, A. Collier Cameron, C. Corral Van Damme, D. Cortes, M. B. Davies, M. Deleuil, A. Deline, L. Delrez, O. Demangeon, B. O. Demory, A. Erikson, J. Farinato, L. Fossati, M. Fridlund, D. Futyan, D. Gandolfi, A. Garcia Munoz, M. Gillon, P. Guterman, A. Gutierrez, J. Hasiba, K. Heng, E. Hernandez, S. Hoyer, L. L. Kiss, Z. Kovacs, T. Kuntzer, J. Laskar, A. Lecavelier des Etangs, M. Lendl, A. López, I. Lora, C. Lovis, T. Lüftinger, D. Magrin, L. Malvasio, L. Marafatto, H. Michaelis, D. de Miguel, D. Modrego, M. Munari, V. Nascimbeni, G. Olofsson, H. Ottacher, R. Ottensamer, I. Pagano, R. Palacios, E. Pallé, G. Peter, D. Piazza, G. Piotto, A. Pizarro, D. Pollaco, R. Ragazzoni, F. Ratti, H. Rauer, I. Ribas, M. Rieder, R. Rohlfs, F. Safa, M. Salatti, N. C. Santos, G. Scandariato, D. Ségransan, A. E. Simon, A. M.S. Smith, M. Sordet, S. G. Sousa, M. Steller, G. M. Szabó, J. Szoke, N. Thomas, M. Tschentscher, S. Udry, V. Van Grootel, V. Viotto, I. Walter, N. A. Walton, F. Wildi, D. Wolter

University of Bern
ESTEC - European Space Research and Technology Centre
Université de Genève
Institute of Astronomy
Keele University
Instituto de Astrofisica de Canarias
Research Unit; CIBERNED and Universidad de La Laguna
DEIMOS Engenharia SA
Admatis
ESAC campus
Ipatimup Diagnósticos
Space Research Institute
INAF Osservatorio Astronomico di Padova
LTHE (UMR 5564 CNRS/IRD/Université de Grenoble)
Stockholm University
DLR
Université Paris Diderot
University of St Andrews
Science
Lund Observatory
LAM
University of Liège
University of Leiden
Chalmers University of Technology
University of Turin
TU Berlin
Division Technique
Konkoly Observatory
Eötvös Loránd University
Sorbonne Univ.
Institut d’Astrophysique de Paris
Instituto Nacional de Técnica Aeroespacial (CSIC/INTA)
University of Vienna
INAF Osservatorio Astrofisico di Catania
University of Padova
University of Warwick
Free University of Berlin
University of Sheffield
Institut d’Estudis Espacials de Catalunya (IEEC)
Science and Research Directorate

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

The CHaracterising ExOPlanet Satellite (CHEOPS) was selected on October 19, 2012, as the first small mission (S-mission) in the ESA Science Programme and successfully launched on December 18, 2019, as a secondary passenger on a Soyuz-Fregat rocket from Kourou, French Guiana. CHEOPS is a partnership between ESA and Switzerland with important contributions by ten additional ESA Member States. CHEOPS is the first mission dedicated to search for transits of exoplanets using ultrahigh precision photometry on bright stars already known to host planets. As a follow-up mission, CHEOPS is mainly dedicated to improving, whenever possible, existing radii measurements or provide first accurate measurements for a subset of those planets for which the mass has already been estimated from ground-based spectroscopic surveys. The expected photometric precision will also allow CHEOPS to go beyond measuring only transits and to follow phase curves or to search for exo-moons, for example. Finally, by unveiling transiting exoplanets with high potential for in-depth characterisation, CHEOPS will also provide prime targets for future instruments suited to the spectroscopic characterisation of exoplanetary atmospheres. To reach its science objectives, requirements on the photometric precision and stability have been derived for stars with magnitudes ranging from 6 to 12 in the V band. In particular, CHEOPS shall be able to detect Earth-size planets transiting G5 dwarf stars (stellar radius of 0.9R_⊙) in the magnitude range 6 ≤ V ≤ 9 by achieving a photometric precision of 20 ppm in 6 hours of integration time. In the case of K-type stars (stellar radius of 0.7R_⊙) of magnitude in the range 9 ≤ V ≤ 12, CHEOPS shall be able to detect transiting Neptune-size planets achieving a photometric precision of 85 ppm in 3 hours of integration time. This precision has to be maintained over continuous periods of observation for up to 48 hours. This precision and stability will be achieved by using a single, frame-transfer, back-illuminated CCD detector at the focal plane assembly of a 33.5 cm diameter, on-axis Ritchey-Chrétien telescope. The nearly 275 kg spacecraft is nadir-locked, with a pointing accuracy of about 1 arcsec rms, and will allow for at least 1 Gbit/day downlink. The sun-synchronous dusk-dawn orbit at 700 km altitude enables having the Sun permanently on the backside of the spacecraft thus minimising Earth stray light. A mission duration of 3.5 years in orbit is foreseen to enable the execution of the science programme. During this period, 20% of the observing time is available to the wider community through yearly ESA call for proposals, as well as through discretionary time approved by ESA’s Director of Science. At the time of this writing, CHEOPS commissioning has been completed and CHEOPS has been shown to fulfill all its requirements. The mission has now started the execution of its science programme.

langue originale	Anglais
Pages (de - à)	109-151
Nombre de pages	43
journal	Experimental Astronomy
Volume	51
Numéro de publication	1
Les DOIs	https://doi.org/10.1007/s10686-020-09679-4
état	Publié - 1 févr. 2021
Modification externe	Oui

Accès au document

10.1007/s10686-020-09679-4

Contient cette citation

@article{ede03098190c430ea3348d0c6253ccb3,

title = "The CHEOPS mission",

abstract = "The CHaracterising ExOPlanet Satellite (CHEOPS) was selected on October 19, 2012, as the first small mission (S-mission) in the ESA Science Programme and successfully launched on December 18, 2019, as a secondary passenger on a Soyuz-Fregat rocket from Kourou, French Guiana. CHEOPS is a partnership between ESA and Switzerland with important contributions by ten additional ESA Member States. CHEOPS is the first mission dedicated to search for transits of exoplanets using ultrahigh precision photometry on bright stars already known to host planets. As a follow-up mission, CHEOPS is mainly dedicated to improving, whenever possible, existing radii measurements or provide first accurate measurements for a subset of those planets for which the mass has already been estimated from ground-based spectroscopic surveys. The expected photometric precision will also allow CHEOPS to go beyond measuring only transits and to follow phase curves or to search for exo-moons, for example. Finally, by unveiling transiting exoplanets with high potential for in-depth characterisation, CHEOPS will also provide prime targets for future instruments suited to the spectroscopic characterisation of exoplanetary atmospheres. To reach its science objectives, requirements on the photometric precision and stability have been derived for stars with magnitudes ranging from 6 to 12 in the V band. In particular, CHEOPS shall be able to detect Earth-size planets transiting G5 dwarf stars (stellar radius of 0.9R⊙) in the magnitude range 6 ≤ V ≤ 9 by achieving a photometric precision of 20 ppm in 6 hours of integration time. In the case of K-type stars (stellar radius of 0.7R⊙) of magnitude in the range 9 ≤ V ≤ 12, CHEOPS shall be able to detect transiting Neptune-size planets achieving a photometric precision of 85 ppm in 3 hours of integration time. This precision has to be maintained over continuous periods of observation for up to 48 hours. This precision and stability will be achieved by using a single, frame-transfer, back-illuminated CCD detector at the focal plane assembly of a 33.5 cm diameter, on-axis Ritchey-Chr{\'e}tien telescope. The nearly 275 kg spacecraft is nadir-locked, with a pointing accuracy of about 1 arcsec rms, and will allow for at least 1 Gbit/day downlink. The sun-synchronous dusk-dawn orbit at 700 km altitude enables having the Sun permanently on the backside of the spacecraft thus minimising Earth stray light. A mission duration of 3.5 years in orbit is foreseen to enable the execution of the science programme. During this period, 20\% of the observing time is available to the wider community through yearly ESA call for proposals, as well as through discretionary time approved by ESA{\textquoteright}s Director of Science. At the time of this writing, CHEOPS commissioning has been completed and CHEOPS has been shown to fulfill all its requirements. The mission has now started the execution of its science programme.",

keywords = "CHEOPS, Exoplanets, High-precision transit photometry, Small mission",

author = "W. Benz and C. Broeg and A. Fortier and N. Rando and T. Beck and M. Beck and D. Queloz and D. Ehrenreich and Maxted, \{P. F.L.\} and Isaak, \{K. G.\} and N. Billot and Y. Alibert and R. Alonso and C. Ant{\'o}nio and J. Asquier and T. Bandy and T. B{\'a}rczy and D. Barrado and Barros, \{S. C.C.\} and W. Baumjohann and A. Bekkelien and M. Bergomi and F. Biondi and X. Bonfils and L. Borsato and A. Brandeker and Busch, \{M. D.\} and J. Cabrera and V. Cessa and S. Charnoz and B. Chazelas and \{Collier Cameron\}, A. and \{Corral Van Damme\}, C. and D. Cortes and Davies, \{M. B.\} and M. Deleuil and A. Deline and L. Delrez and O. Demangeon and Demory, \{B. O.\} and A. Erikson and J. Farinato and L. Fossati and M. Fridlund and D. Futyan and D. Gandolfi and \{Garcia Munoz\}, A. and M. Gillon and P. Guterman and A. Gutierrez and J. Hasiba and K. Heng and E. Hernandez and S. Hoyer and Kiss, \{L. L.\} and Z. Kovacs and T. Kuntzer and J. Laskar and \{Lecavelier des Etangs\}, A. and M. Lendl and A. L{\'o}pez and I. Lora and C. Lovis and T. L{\"u}ftinger and D. Magrin and L. Malvasio and L. Marafatto and H. Michaelis and \{de Miguel\}, D. and D. Modrego and M. Munari and V. Nascimbeni and G. Olofsson and H. Ottacher and R. Ottensamer and I. Pagano and R. Palacios and E. Pall{\'e} and G. Peter and D. Piazza and G. Piotto and A. Pizarro and D. Pollaco and R. Ragazzoni and F. Ratti and H. Rauer and I. Ribas and M. Rieder and R. Rohlfs and F. Safa and M. Salatti and Santos, \{N. C.\} and G. Scandariato and D. S{\'e}gransan and Simon, \{A. E.\} and Smith, \{A. M.S.\} and M. Sordet and Sousa, \{S. G.\} and M. Steller and Szab{\'o}, \{G. M.\} and J. Szoke and N. Thomas and M. Tschentscher and S. Udry and \{Van Grootel\}, V. and V. Viotto and I. Walter and Walton, \{N. A.\} and F. Wildi and D. Wolter",

note = "Publisher Copyright: {\textcopyright} 2020, The Author(s).",

year = "2021",

month = feb,

day = "1",

doi = "10.1007/s10686-020-09679-4",

language = "English",

volume = "51",

pages = "109--151",

journal = "Experimental Astronomy",

issn = "0922-6435",

number = "1",

}

Benz, W, Broeg, C, Fortier, A, Rando, N, Beck, T, Beck, M, Queloz, D, Ehrenreich, D, Maxted, PFL, Isaak, KG, Billot, N, Alibert, Y, Alonso, R, António, C, Asquier, J, Bandy, T, Bárczy, T, Barrado, D, Barros, SCC, Baumjohann, W, Bekkelien, A, Bergomi, M, Biondi, F, Bonfils, X, Borsato, L, Brandeker, A, Busch, MD, Cabrera, J, Cessa, V, Charnoz, S, Chazelas, B, Collier Cameron, A, Corral Van Damme, C, Cortes, D, Davies, MB, Deleuil, M, Deline, A, Delrez, L, Demangeon, O, Demory, BO, Erikson, A, Farinato, J, Fossati, L, Fridlund, M, Futyan, D, Gandolfi, D, Garcia Munoz, A, Gillon, M, Guterman, P, Gutierrez, A, Hasiba, J, Heng, K, Hernandez, E, Hoyer, S, Kiss, LL, Kovacs, Z, Kuntzer, T, Laskar, J, Lecavelier des Etangs, A, Lendl, M, López, A, Lora, I, Lovis, C, Lüftinger, T, Magrin, D, Malvasio, L, Marafatto, L, Michaelis, H, de Miguel, D, Modrego, D, Munari, M, Nascimbeni, V, Olofsson, G, Ottacher, H, Ottensamer, R, Pagano, I, Palacios, R, Pallé, E, Peter, G, Piazza, D, Piotto, G, Pizarro, A, Pollaco, D, Ragazzoni, R, Ratti, F, Rauer, H, Ribas, I, Rieder, M, Rohlfs, R, Safa, F, Salatti, M, Santos, NC, Scandariato, G, Ségransan, D, Simon, AE, Smith, AMS, Sordet, M, Sousa, SG, Steller, M, Szabó, GM, Szoke, J, Thomas, N, Tschentscher, M, Udry, S, Van Grootel, V, Viotto, V, Walter, I, Walton, NA, Wildi, F & Wolter, D 2021, 'The CHEOPS mission', Experimental Astronomy, VOL. 51, Numéro 1, p. 109-151. https://doi.org/10.1007/s10686-020-09679-4

TY - JOUR

T1 - The CHEOPS mission

AU - Benz, W.

AU - Broeg, C.

AU - Fortier, A.

AU - Rando, N.

AU - Beck, T.

AU - Beck, M.

AU - Queloz, D.

AU - Ehrenreich, D.

AU - Maxted, P. F.L.

AU - Isaak, K. G.

AU - Billot, N.

AU - Alibert, Y.

AU - Alonso, R.

AU - António, C.

AU - Asquier, J.

AU - Bandy, T.

AU - Bárczy, T.

AU - Barrado, D.

AU - Barros, S. C.C.

AU - Baumjohann, W.

AU - Bekkelien, A.

AU - Bergomi, M.

AU - Biondi, F.

AU - Bonfils, X.

AU - Borsato, L.

AU - Brandeker, A.

AU - Busch, M. D.

AU - Cabrera, J.

AU - Cessa, V.

AU - Charnoz, S.

AU - Chazelas, B.

AU - Collier Cameron, A.

AU - Corral Van Damme, C.

AU - Cortes, D.

AU - Davies, M. B.

AU - Deleuil, M.

AU - Deline, A.

AU - Delrez, L.

AU - Demangeon, O.

AU - Demory, B. O.

AU - Erikson, A.

AU - Farinato, J.

AU - Fossati, L.

AU - Fridlund, M.

AU - Futyan, D.

AU - Gandolfi, D.

AU - Garcia Munoz, A.

AU - Gillon, M.

AU - Guterman, P.

AU - Gutierrez, A.

AU - Hasiba, J.

AU - Heng, K.

AU - Hernandez, E.

AU - Hoyer, S.

AU - Kiss, L. L.

AU - Kovacs, Z.

AU - Kuntzer, T.

AU - Laskar, J.

AU - Lecavelier des Etangs, A.

AU - Lendl, M.

AU - López, A.

AU - Lora, I.

AU - Lovis, C.

AU - Lüftinger, T.

AU - Magrin, D.

AU - Malvasio, L.

AU - Marafatto, L.

AU - Michaelis, H.

AU - de Miguel, D.

AU - Modrego, D.

AU - Munari, M.

AU - Nascimbeni, V.

AU - Olofsson, G.

AU - Ottacher, H.

AU - Ottensamer, R.

AU - Pagano, I.

AU - Palacios, R.

AU - Pallé, E.

AU - Peter, G.

AU - Piazza, D.

AU - Piotto, G.

AU - Pizarro, A.

AU - Pollaco, D.

AU - Ragazzoni, R.

AU - Ratti, F.

AU - Rauer, H.

AU - Ribas, I.

AU - Rieder, M.

AU - Rohlfs, R.

AU - Safa, F.

AU - Salatti, M.

AU - Santos, N. C.

AU - Scandariato, G.

AU - Ségransan, D.

AU - Simon, A. E.

AU - Smith, A. M.S.

AU - Sordet, M.

AU - Sousa, S. G.

AU - Steller, M.

AU - Szabó, G. M.

AU - Szoke, J.

AU - Thomas, N.

AU - Tschentscher, M.

AU - Udry, S.

AU - Van Grootel, V.

AU - Viotto, V.

AU - Walter, I.

AU - Walton, N. A.

AU - Wildi, F.

AU - Wolter, D.

PY - 2021/2/1

Y1 - 2021/2/1

N2 - The CHaracterising ExOPlanet Satellite (CHEOPS) was selected on October 19, 2012, as the first small mission (S-mission) in the ESA Science Programme and successfully launched on December 18, 2019, as a secondary passenger on a Soyuz-Fregat rocket from Kourou, French Guiana. CHEOPS is a partnership between ESA and Switzerland with important contributions by ten additional ESA Member States. CHEOPS is the first mission dedicated to search for transits of exoplanets using ultrahigh precision photometry on bright stars already known to host planets. As a follow-up mission, CHEOPS is mainly dedicated to improving, whenever possible, existing radii measurements or provide first accurate measurements for a subset of those planets for which the mass has already been estimated from ground-based spectroscopic surveys. The expected photometric precision will also allow CHEOPS to go beyond measuring only transits and to follow phase curves or to search for exo-moons, for example. Finally, by unveiling transiting exoplanets with high potential for in-depth characterisation, CHEOPS will also provide prime targets for future instruments suited to the spectroscopic characterisation of exoplanetary atmospheres. To reach its science objectives, requirements on the photometric precision and stability have been derived for stars with magnitudes ranging from 6 to 12 in the V band. In particular, CHEOPS shall be able to detect Earth-size planets transiting G5 dwarf stars (stellar radius of 0.9R⊙) in the magnitude range 6 ≤ V ≤ 9 by achieving a photometric precision of 20 ppm in 6 hours of integration time. In the case of K-type stars (stellar radius of 0.7R⊙) of magnitude in the range 9 ≤ V ≤ 12, CHEOPS shall be able to detect transiting Neptune-size planets achieving a photometric precision of 85 ppm in 3 hours of integration time. This precision has to be maintained over continuous periods of observation for up to 48 hours. This precision and stability will be achieved by using a single, frame-transfer, back-illuminated CCD detector at the focal plane assembly of a 33.5 cm diameter, on-axis Ritchey-Chrétien telescope. The nearly 275 kg spacecraft is nadir-locked, with a pointing accuracy of about 1 arcsec rms, and will allow for at least 1 Gbit/day downlink. The sun-synchronous dusk-dawn orbit at 700 km altitude enables having the Sun permanently on the backside of the spacecraft thus minimising Earth stray light. A mission duration of 3.5 years in orbit is foreseen to enable the execution of the science programme. During this period, 20% of the observing time is available to the wider community through yearly ESA call for proposals, as well as through discretionary time approved by ESA’s Director of Science. At the time of this writing, CHEOPS commissioning has been completed and CHEOPS has been shown to fulfill all its requirements. The mission has now started the execution of its science programme.

AB - The CHaracterising ExOPlanet Satellite (CHEOPS) was selected on October 19, 2012, as the first small mission (S-mission) in the ESA Science Programme and successfully launched on December 18, 2019, as a secondary passenger on a Soyuz-Fregat rocket from Kourou, French Guiana. CHEOPS is a partnership between ESA and Switzerland with important contributions by ten additional ESA Member States. CHEOPS is the first mission dedicated to search for transits of exoplanets using ultrahigh precision photometry on bright stars already known to host planets. As a follow-up mission, CHEOPS is mainly dedicated to improving, whenever possible, existing radii measurements or provide first accurate measurements for a subset of those planets for which the mass has already been estimated from ground-based spectroscopic surveys. The expected photometric precision will also allow CHEOPS to go beyond measuring only transits and to follow phase curves or to search for exo-moons, for example. Finally, by unveiling transiting exoplanets with high potential for in-depth characterisation, CHEOPS will also provide prime targets for future instruments suited to the spectroscopic characterisation of exoplanetary atmospheres. To reach its science objectives, requirements on the photometric precision and stability have been derived for stars with magnitudes ranging from 6 to 12 in the V band. In particular, CHEOPS shall be able to detect Earth-size planets transiting G5 dwarf stars (stellar radius of 0.9R⊙) in the magnitude range 6 ≤ V ≤ 9 by achieving a photometric precision of 20 ppm in 6 hours of integration time. In the case of K-type stars (stellar radius of 0.7R⊙) of magnitude in the range 9 ≤ V ≤ 12, CHEOPS shall be able to detect transiting Neptune-size planets achieving a photometric precision of 85 ppm in 3 hours of integration time. This precision has to be maintained over continuous periods of observation for up to 48 hours. This precision and stability will be achieved by using a single, frame-transfer, back-illuminated CCD detector at the focal plane assembly of a 33.5 cm diameter, on-axis Ritchey-Chrétien telescope. The nearly 275 kg spacecraft is nadir-locked, with a pointing accuracy of about 1 arcsec rms, and will allow for at least 1 Gbit/day downlink. The sun-synchronous dusk-dawn orbit at 700 km altitude enables having the Sun permanently on the backside of the spacecraft thus minimising Earth stray light. A mission duration of 3.5 years in orbit is foreseen to enable the execution of the science programme. During this period, 20% of the observing time is available to the wider community through yearly ESA call for proposals, as well as through discretionary time approved by ESA’s Director of Science. At the time of this writing, CHEOPS commissioning has been completed and CHEOPS has been shown to fulfill all its requirements. The mission has now started the execution of its science programme.

KW - CHEOPS

KW - Exoplanets

KW - High-precision transit photometry

KW - Small mission

U2 - 10.1007/s10686-020-09679-4

DO - 10.1007/s10686-020-09679-4

M3 - Article

AN - SCOPUS:85095602152

SN - 0922-6435

VL - 51

SP - 109

EP - 151

JO - Experimental Astronomy

JF - Experimental Astronomy

IS - 1

ER -

The CHEOPS mission

Résumé

Accès au document

Empreinte digitale

Contient cette citation