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Even among the most irradiated gas giants, so-called ultra-hot Jupiters, KELT-9b stands out as the hottest planet thus far discovered with a dayside temperature of over 4500 K. At these extreme irradiation levels, we expect an increase in heat redistribution efficiency and a low Bond albedo owed to an extended atmosphere with molecular hydrogen dissociation occurring on the planetary dayside. We present new photometric observations of the KELT-9 system throughout 4 full orbits and 9 separate occultations obtained by the 30 cm space telescope CHEOPS. The CHEOPS bandpass, located at optical wavelengths, captures the peak of the thermal emission spectrum of KELT-9b. In this work we simultaneously analyse CHEOPS phase curves along with public phase curves from TESS and Spitzer to infer joint constraints on the phase curve variation, gravity-darkened transits, and occultation depth in three bandpasses, as well as derive 2D temperature maps of the atmosphere at three different depths. We find a day-night heat redistribution efficiency of similar to 0.3 which confirms expectations of enhanced energy transfer to the planetary nightside due to dissociation and recombination of molecular hydrogen. We also calculate a Bond albedo consistent with zero. We find no evidence of variability of the brightness temperature of the planet, excluding variability greater than 1% (1 sigma).

The stable climate of KELT-9b

K. Jones;B. M. Morris;B. -O. Demory;K. Heng;M. J. Hooton;N. Billot;D. Ehrenreich;S. Hoyer;A. E. Simon;M. Lendl;O. D. S. Demangeon;S. G. Sousa;A. Bonfanti;T. G. Wilson;S. Salmon;Sz. Csizmadia;H. Parviainen;G. Bruno;Y. Alibert;R. Alonso;G. Anglada;T. B??rczy;D. Barrado;S. C. C. Barros;W. Baumjohann;M. Beck;T. Beck;W. Benz;X. Bonfils;A. Brandeker;C. Broeg;J. Cabrera;S. Charnoz;A. Collier Cameron;M. B. Davies;M. Deleuil;A. Deline;L. Delrez;A. Erikson;A. Fortier;L. Fossati;M. Fridlund;D. Gandolfi;M. Gillon;M. G??del;K. G. Isaak;L. L. Kiss;J. Laskar;A. Lecavelier des Etangs;C. Lovis;D. Magrin;P. F. L. Maxted;V. Nascimbeni;G. Olofsson;R. Ottensamer;I. Pagano;E. Pall??;G. Peter;G. Piotto;D. Pollacco;D. Queloz;R. Ragazzoni;N. Rando;F. Ratti;H. Rauer;C. Reimers;I. Ribas;N. C. Santos;G. Scandariato;D. S??gransan;A. M. S. Smith;M. Steller;Gy. M. Szab??;N. Thomas;S. Udry;V. Van Grootel;I. Walter;N. A. Walton;W. Wang Jungo

2022-01-01

Abstract

Even among the most irradiated gas giants, so-called ultra-hot Jupiters, KELT-9b stands out as the hottest planet thus far discovered with a dayside temperature of over 4500 K. At these extreme irradiation levels, we expect an increase in heat redistribution efficiency and a low Bond albedo owed to an extended atmosphere with molecular hydrogen dissociation occurring on the planetary dayside. We present new photometric observations of the KELT-9 system throughout 4 full orbits and 9 separate occultations obtained by the 30 cm space telescope CHEOPS. The CHEOPS bandpass, located at optical wavelengths, captures the peak of the thermal emission spectrum of KELT-9b. In this work we simultaneously analyse CHEOPS phase curves along with public phase curves from TESS and Spitzer to infer joint constraints on the phase curve variation, gravity-darkened transits, and occultation depth in three bandpasses, as well as derive 2D temperature maps of the atmosphere at three different depths. We find a day-night heat redistribution efficiency of similar to 0.3 which confirms expectations of enhanced energy transfer to the planetary nightside due to dissociation and recombination of molecular hydrogen. We also calculate a Bond albedo consistent with zero. We find no evidence of variability of the brightness temperature of the planet, excluding variability greater than 1% (1 sigma).

Scheda breve

Scheda completa

Scheda completa (DC)

	Anno
	
			2022
		
	Titolo rivista
	
			ASTRONOMY & ASTROPHYSICS
		
	N. Volume
	
			666
		
	Pagine (da)
	
			1
		
	Pagine (a)
	
			19
		
	DOI
	
			https://dx.doi.org/10.1051/0004-6361/202243823
		
	URL del prodotto (archivi open access, fulltext su sito editore, etc.)
	
			https://www.aanda.org/articles/aa/full_html/2022/10/aa43823-22/aa43823-22.html
		
	Parole Chiave
	
			techniques: photometric; instrumentation: photometers; planets and satellites: atmospheres; planets and satellites: gaseous planets; eclipses; occultations
		
	Tutti gli autori
	
			K. Jones; B. M. Morris; B.-O. Demory; K. Heng; M. J. Hooton; N. Billot; D. Ehrenreich; S. Hoyer; A. E. Simon; M. Lendl; O. D. S. Demangeon; S. G. Sousa; A. Bonfanti; T. G. Wilson; S. Salmon; Sz. Csizmadia; H. Parviainen; G. Bruno; Y. Alibert; R. Alonso; G. Anglada; T. B??rczy; D. Barrado; S. C. C. Barros; W. Baumjohann; M. Beck; T. Beck; W. Benz; X. Bonfils; A. Brandeker; C. Broeg; J. Cabrera; S. Charnoz; A. Collier Cameron; M. B. Davies; M. Deleuil; A. Deline; L. Delrez; A. Erikson; A. Fortier; L. Fossati; M. Fridlund; D. Gandolfi; M. Gillon; M. G??del; K. G. Isaak; L. L. Kiss; J. Laskar; A. Lecavelier des Etangs; C. Lovis; D. Magrin; P. F. L. Maxted; V. Nascimbeni; G. Olofsson; R. Ottensamer; I. Pagano; E. Pall??; G. Peter; G. Piotto; D. Pollacco; D. Queloz; R. Ragazzoni; N. Rando; F. Ratti; H. Rauer; C. Reimers; I. Ribas; N. C. Santos; G. Scandariato; D. S??gransan; A. M. S. Smith; M. Steller; Gy. M. Szab??; N. Thomas; S. Udry; V. Van Grootel; I. Walter; N. A. Walton; W. Wang Jungo
		
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			03A-Articolo su Rivista

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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/1948620

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