Constraining the reflective properties of WASP-178 b using CHEOPS photometry

I. Pagano; G. Scandariato; V. Singh; M. Lendl; D. Queloz; A. E. Simon; S. G. Sousa; A. Brandeker; A. Collier Cameron; S. Sulis; V. Van Grootel; T. G. Wilson; Y. Alibert; R. Alonso; G. Anglada; T. Bárczy; D. Barrado Navascues; S. C.C. Barros; W. Baumjohann; M. Beck; T. Beck; W. Benz; N. Billot; X. Bonfils; L. Borsato; C. Broeg; G. Bruno; L. Carone; S. Charnoz; C. Corral Van Damme; Sz Csizmadia; P. E. Cubillos; M. B. Davies; M. Deleuil; A. Deline; L. Delrez; O. D.S. Demangeon; B. O. Demory; D. Ehrenreich; A. Erikson; A. Fortier; L. Fossati; M. Fridlund; D. Gandolfi; M. Gillon; M. Güdel; M. N. Günther; Ch Helling; S. Hoyer; K. G. Isaak; L. L. Kiss; E. Kopp; K. W.F. Lam; J. Laskar; A. Lecavelier Des Etangs; D. Magrin; P. F.L. Maxted; C. Mordasini; M. Munari; V. Nascimbeni; G. Olofsson; R. Ottensamer; E. Pallé; G. Peter; G. Piotto; D. Pollacco; R. Ragazzoni; N. Rando; H. Rauer; C. Reimers; I. Ribas; M. Rieder; N. C. Santos; D. Ségransan; A. M.S. Smith; M. Stalport; M. Steller; Gy M. Szabó; N. Thomas; S. Udry; J. Venturini; N. A. Walton

doi:10.1051/0004-6361/202346705

Constraining the reflective properties of WASP-178 b using CHEOPS photometry

I. Pagano
, G. Scandariato
, V. Singh
, M. Lendl
, D. Queloz
, A. E. Simon
, S. G. Sousa
, A. Brandeker
, A. Collier Cameron
, S. Sulis
, V. Van Grootel
, T. G. Wilson
, Y. Alibert
, R. Alonso
, G. Anglada
, T. Bárczy
, D. Barrado Navascues
, S. C.C. Barros
, W. Baumjohann
, M. Beck

T. Beck, W. Benz, N. Billot, X. Bonfils, L. Borsato, C. Broeg, G. Bruno, L. Carone, S. Charnoz, C. Corral Van Damme, Sz Csizmadia, P. E. Cubillos, M. B. Davies, M. Deleuil, A. Deline, L. Delrez, O. D.S. Demangeon, B. O. Demory, D. Ehrenreich, A. Erikson, A. Fortier, L. Fossati, M. Fridlund, D. Gandolfi, M. Gillon, M. Güdel, M. N. Günther, Ch Helling, S. Hoyer, K. G. Isaak, L. L. Kiss, E. Kopp, K. W.F. Lam, J. Laskar, A. Lecavelier Des Etangs, D. Magrin, P. F.L. Maxted, C. Mordasini, M. Munari, V. Nascimbeni, G. Olofsson, R. Ottensamer, E. Pallé, G. Peter, G. Piotto, D. Pollacco, R. Ragazzoni, N. Rando, H. Rauer, C. Reimers, I. Ribas, M. Rieder, N. C. Santos, D. Ségransan, A. M.S. Smith, M. Stalport, M. Steller, Gy M. Szabó, N. Thomas, S. Udry, J. Venturini, N. A. Walton

INAF Osservatorio Astrofisico di Catania
Université de Genève
ETH Zurich
University of Cambridge
University of Bern
Ipatimup Diagnósticos
Stockholm University
University of St Andrews
LAM
University of Liège
Instituto de Astrofisica de Canarias
Research Unit; CIBERNED and Universidad de La Laguna
Campus UAB
Institut d’Estudis Espacials de Catalunya (IEEC)
Admatis Ltd.
ESAC campus
Space Research Institute
Université Grenoble Alpes
INAF Osservatorio Astronomico di Padova
Université Paris Diderot
ESTEC - European Space Research and Technology Centre
DLR
Istituto di Astrofisica e Planetologia Spaziali (IAPS)
Lund University
University of Geneva
University of Leiden
Onsala Space Observatory
University of Turin
University of Vienna
Graz University of Technology
Konkoly Observatory
Eötvös Loránd University
Sorbonne Univ.
Institut d’Astrophysique de Paris
Keele University
University of Padova
University of Warwick
TU Berlin
Free University of Berlin
Institute of Astronomy

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

Résumé

Context. Multiwavelength photometry of the secondary eclipses of extrasolar planets is able to disentangle the reflected and thermally emitted light radiated from the planetary dayside. Based on this, we can measure the planetary geometric albedo Ag, which is an indicator of the presence of clouds in the atmosphere, and the recirculation efficiency ϵ, which quantifies the energy transport within the atmosphere. Aims. We measure Ag and ϵ for the planet WASP-178 b, a highly irradiated giant planet with an estimated equilibrium temperature of 2450 K. Methods. We analyzed archival spectra and the light curves collected by CHEOPS and TESS to characterize the host WASP-178, refine the ephemeris of the system, and measure the eclipse depth in the passbands of the two telescopes. Results. We measured a marginally significant eclipse depth of 70 ± 40 ppm in the TESS passband, and a statistically significant depth of 70 ± 20 ppm in the CHEOPS passband. Conclusions. Combining the eclipse-depth measurement in the CHEOPS (λeff = 6300 Å) and TESS (λeff = 8000 Å) passbands, we constrained the dayside brightness temperature of WASP-178 b in the 2250-2800 K interval. The geometric albedo 0.1< Ag<0.35 generally supports the picture that giant planets are poorly reflective, while the recirculation efficiency ϵ >0.7 makes WASP-178 b an interesting laboratory for testing the current heat-recirculation models.

langue originale	Anglais
Numéro d'article	A102
journal	Astronomy and Astrophysics
Volume	682
Les DOIs	https://doi.org/10.1051/0004-6361/202346705
état	Publié - 1 févr. 2024
Modification externe	Oui

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10.1051/0004-6361/202346705

Contient cette citation

Pagano, I., Scandariato, G., Singh, V., Lendl, M., Queloz, D., Simon, A. E., Sousa, S. G., Brandeker, A., Collier Cameron, A., Sulis, S., Van Grootel, V., Wilson, T. G., Alibert, Y., Alonso, R., Anglada, G., Bárczy, T., Barrado Navascues, D., Barros, S. C. C., Baumjohann, W., ... Walton, N. A. (2024). Constraining the reflective properties of WASP-178 b using CHEOPS photometry. Astronomy and Astrophysics, 682, Article A102. https://doi.org/10.1051/0004-6361/202346705

@article{2d2946fad2cb4825a01007243f1bdb6d,

title = "Constraining the reflective properties of WASP-178 b using CHEOPS photometry",

abstract = "Context. Multiwavelength photometry of the secondary eclipses of extrasolar planets is able to disentangle the reflected and thermally emitted light radiated from the planetary dayside. Based on this, we can measure the planetary geometric albedo Ag, which is an indicator of the presence of clouds in the atmosphere, and the recirculation efficiency ϵ, which quantifies the energy transport within the atmosphere. Aims. We measure Ag and ϵ for the planet WASP-178 b, a highly irradiated giant planet with an estimated equilibrium temperature of 2450 K. Methods. We analyzed archival spectra and the light curves collected by CHEOPS and TESS to characterize the host WASP-178, refine the ephemeris of the system, and measure the eclipse depth in the passbands of the two telescopes. Results. We measured a marginally significant eclipse depth of 70 ± 40 ppm in the TESS passband, and a statistically significant depth of 70 ± 20 ppm in the CHEOPS passband. Conclusions. Combining the eclipse-depth measurement in the CHEOPS (λeff = 6300 {\AA}) and TESS (λeff = 8000 {\AA}) passbands, we constrained the dayside brightness temperature of WASP-178 b in the 2250-2800 K interval. The geometric albedo 0.1< Ag<0.35 generally supports the picture that giant planets are poorly reflective, while the recirculation efficiency ϵ >0.7 makes WASP-178 b an interesting laboratory for testing the current heat-recirculation models.",

keywords = "planets and satellites: atmospheres, planets and satellites: detection, planets and satellites: gaseous planets, planets and satellites: individual: wasp-178 b, techniques: photometric",

author = "I. Pagano and G. Scandariato and V. Singh and M. Lendl and D. Queloz and Simon, \{A. E.\} and Sousa, \{S. G.\} and A. Brandeker and \{Collier Cameron\}, A. and S. Sulis and \{Van Grootel\}, V. and Wilson, \{T. G.\} and Y. Alibert and R. Alonso and G. Anglada and T. B{\'a}rczy and \{Barrado Navascues\}, D. and Barros, \{S. C.C.\} and W. Baumjohann and M. Beck and T. Beck and W. Benz and N. Billot and X. Bonfils and L. Borsato and C. Broeg and G. Bruno and L. Carone and S. Charnoz and \{Corral Van Damme\}, C. and Sz Csizmadia and Cubillos, \{P. E.\} and Davies, \{M. B.\} and M. Deleuil and A. Deline and L. Delrez and Demangeon, \{O. D.S.\} and Demory, \{B. O.\} and D. Ehrenreich and A. Erikson and A. Fortier and L. Fossati and M. Fridlund and D. Gandolfi and M. Gillon and M. G{\"u}del and G{\"u}nther, \{M. N.\} and Ch Helling and S. Hoyer and Isaak, \{K. G.\} and Kiss, \{L. L.\} and E. Kopp and Lam, \{K. W.F.\} and J. Laskar and \{Lecavelier Des Etangs\}, A. and D. Magrin and Maxted, \{P. F.L.\} and C. Mordasini and M. Munari and V. Nascimbeni and G. Olofsson and R. Ottensamer and E. Pall{\'e} and G. Peter and G. Piotto and D. Pollacco and R. Ragazzoni and N. Rando and H. Rauer and C. Reimers and I. Ribas and M. Rieder and Santos, \{N. C.\} and D. S{\'e}gransan and Smith, \{A. M.S.\} and M. Stalport and M. Steller and Szab{\'o}, \{Gy M.\} and N. Thomas and S. Udry and J. Venturini and Walton, \{N. A.\}",

note = "Publisher Copyright: {\textcopyright} The Authors 2024.",

year = "2024",

month = feb,

day = "1",

doi = "10.1051/0004-6361/202346705",

language = "English",

volume = "682",

journal = "Astronomy and Astrophysics",

issn = "0004-6361",

}

Pagano, I, Scandariato, G, Singh, V, Lendl, M, Queloz, D, Simon, AE, Sousa, SG, Brandeker, A, Collier Cameron, A, Sulis, S, Van Grootel, V, Wilson, TG, Alibert, Y, Alonso, R, Anglada, G, Bárczy, T, Barrado Navascues, D, Barros, SCC, Baumjohann, W, Beck, M, Beck, T, Benz, W, Billot, N, Bonfils, X, Borsato, L, Broeg, C, Bruno, G, Carone, L, Charnoz, S, Corral Van Damme, C, Csizmadia, S, Cubillos, PE, Davies, MB, Deleuil, M, Deline, A, Delrez, L, Demangeon, ODS, Demory, BO, Ehrenreich, D, Erikson, A, Fortier, A, Fossati, L, Fridlund, M, Gandolfi, D, Gillon, M, Güdel, M, Günther, MN, Helling, C, Hoyer, S, Isaak, KG, Kiss, LL, Kopp, E, Lam, KWF, Laskar, J, Lecavelier Des Etangs, A, Magrin, D, Maxted, PFL, Mordasini, C, Munari, M, Nascimbeni, V, Olofsson, G, Ottensamer, R, Pallé, E, Peter, G, Piotto, G, Pollacco, D, Ragazzoni, R, Rando, N, Rauer, H, Reimers, C, Ribas, I, Rieder, M, Santos, NC, Ségransan, D, Smith, AMS, Stalport, M, Steller, M, Szabó, GM, Thomas, N, Udry, S, Venturini, J & Walton, NA 2024, 'Constraining the reflective properties of WASP-178 b using CHEOPS photometry', Astronomy and Astrophysics, VOL. 682, A102. https://doi.org/10.1051/0004-6361/202346705

TY - JOUR

T1 - Constraining the reflective properties of WASP-178 b using CHEOPS photometry

AU - Pagano, I.

AU - Scandariato, G.

AU - Singh, V.

AU - Lendl, M.

AU - Queloz, D.

AU - Simon, A. E.

AU - Sousa, S. G.

AU - Brandeker, A.

AU - Collier Cameron, A.

AU - Sulis, S.

AU - Van Grootel, V.

AU - Wilson, T. G.

AU - Alibert, Y.

AU - Alonso, R.

AU - Anglada, G.

AU - Bárczy, T.

AU - Barrado Navascues, D.

AU - Barros, S. C.C.

AU - Baumjohann, W.

AU - Beck, M.

AU - Beck, T.

AU - Benz, W.

AU - Billot, N.

AU - Bonfils, X.

AU - Borsato, L.

AU - Broeg, C.

AU - Bruno, G.

AU - Carone, L.

AU - Charnoz, S.

AU - Corral Van Damme, C.

AU - Csizmadia, Sz

AU - Cubillos, P. E.

AU - Davies, M. B.

AU - Deleuil, M.

AU - Deline, A.

AU - Delrez, L.

AU - Demangeon, O. D.S.

AU - Demory, B. O.

AU - Ehrenreich, D.

AU - Erikson, A.

AU - Fortier, A.

AU - Fossati, L.

AU - Fridlund, M.

AU - Gandolfi, D.

AU - Gillon, M.

AU - Güdel, M.

AU - Günther, M. N.

AU - Helling, Ch

AU - Hoyer, S.

AU - Isaak, K. G.

AU - Kiss, L. L.

AU - Kopp, E.

AU - Lam, K. W.F.

AU - Laskar, J.

AU - Lecavelier Des Etangs, A.

AU - Magrin, D.

AU - Maxted, P. F.L.

AU - Mordasini, C.

AU - Munari, M.

AU - Nascimbeni, V.

AU - Olofsson, G.

AU - Ottensamer, R.

AU - Pallé, E.

AU - Peter, G.

AU - Piotto, G.

AU - Pollacco, D.

AU - Ragazzoni, R.

AU - Rando, N.

AU - Rauer, H.

AU - Reimers, C.

AU - Ribas, I.

AU - Rieder, M.

AU - Santos, N. C.

AU - Ségransan, D.

AU - Smith, A. M.S.

AU - Stalport, M.

AU - Steller, M.

AU - Szabó, Gy M.

AU - Thomas, N.

AU - Udry, S.

AU - Venturini, J.

AU - Walton, N. A.

PY - 2024/2/1

Y1 - 2024/2/1

N2 - Context. Multiwavelength photometry of the secondary eclipses of extrasolar planets is able to disentangle the reflected and thermally emitted light radiated from the planetary dayside. Based on this, we can measure the planetary geometric albedo Ag, which is an indicator of the presence of clouds in the atmosphere, and the recirculation efficiency ϵ, which quantifies the energy transport within the atmosphere. Aims. We measure Ag and ϵ for the planet WASP-178 b, a highly irradiated giant planet with an estimated equilibrium temperature of 2450 K. Methods. We analyzed archival spectra and the light curves collected by CHEOPS and TESS to characterize the host WASP-178, refine the ephemeris of the system, and measure the eclipse depth in the passbands of the two telescopes. Results. We measured a marginally significant eclipse depth of 70 ± 40 ppm in the TESS passband, and a statistically significant depth of 70 ± 20 ppm in the CHEOPS passband. Conclusions. Combining the eclipse-depth measurement in the CHEOPS (λeff = 6300 Å) and TESS (λeff = 8000 Å) passbands, we constrained the dayside brightness temperature of WASP-178 b in the 2250-2800 K interval. The geometric albedo 0.1< Ag<0.35 generally supports the picture that giant planets are poorly reflective, while the recirculation efficiency ϵ >0.7 makes WASP-178 b an interesting laboratory for testing the current heat-recirculation models.

AB - Context. Multiwavelength photometry of the secondary eclipses of extrasolar planets is able to disentangle the reflected and thermally emitted light radiated from the planetary dayside. Based on this, we can measure the planetary geometric albedo Ag, which is an indicator of the presence of clouds in the atmosphere, and the recirculation efficiency ϵ, which quantifies the energy transport within the atmosphere. Aims. We measure Ag and ϵ for the planet WASP-178 b, a highly irradiated giant planet with an estimated equilibrium temperature of 2450 K. Methods. We analyzed archival spectra and the light curves collected by CHEOPS and TESS to characterize the host WASP-178, refine the ephemeris of the system, and measure the eclipse depth in the passbands of the two telescopes. Results. We measured a marginally significant eclipse depth of 70 ± 40 ppm in the TESS passband, and a statistically significant depth of 70 ± 20 ppm in the CHEOPS passband. Conclusions. Combining the eclipse-depth measurement in the CHEOPS (λeff = 6300 Å) and TESS (λeff = 8000 Å) passbands, we constrained the dayside brightness temperature of WASP-178 b in the 2250-2800 K interval. The geometric albedo 0.1< Ag<0.35 generally supports the picture that giant planets are poorly reflective, while the recirculation efficiency ϵ >0.7 makes WASP-178 b an interesting laboratory for testing the current heat-recirculation models.

KW - planets and satellites: atmospheres

KW - planets and satellites: detection

KW - planets and satellites: gaseous planets

KW - planets and satellites: individual: wasp-178 b

KW - techniques: photometric

U2 - 10.1051/0004-6361/202346705

DO - 10.1051/0004-6361/202346705

M3 - Article

AN - SCOPUS:85185216038

SN - 0004-6361

VL - 682

JO - Astronomy and Astrophysics

JF - Astronomy and Astrophysics

M1 - A102

ER -

Constraining the reflective properties of WASP-178 b using CHEOPS photometry

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