Gespeichert in:
Bibliographische Detailangaben
Hauptverfasser: Bazinet, Luc, Allart, Romain, Benneke, Björn, Pelletier, Stefan, Wardenier, Joost P., Cook, Neil J., Forveille, Thierry, Nielsen, Louise D., Moulla, Khaled Al, Artigau, Étienne, Baron, Frédérique, Barros, Susana C. C., Bonfils, Xavier, Bouchy, François, Bryan, Marta, Martins, Bruno L. Canto, Cloutier, Ryan, Cowan, Nicolas B., de Freitas, Daniel Brito, De Medeiros, Jose Renan, Delfosse, Xavier, Doyon, René, Dumusque, Xavier, Ehrenreich, David, Hernández, Jonay I. González, Lafrenière, David, Leão, Izan de Castro, Lovis, Christophe, Malo, Lison, Melo, Claudio, Mignon, Lucile, Mordasini, Christoph, Pepe, Francesco, Rebolo, Rafael, Rowe, Jason, Santos, Nuno C., Ségransan, Damien, Mascareño, Alejandro Suárez, Udry, Stéphane, Valencia, Diana, Wade, Gregg, Abreu, Manuel, Aguiar, José L. A., Allain, Guillaume, Arial, Tomy, Auger, Hugues, Blind, Nicolas, Bohlender, David, Boucher, Anne, Bourrier, Vincent, Bovay, Sébastien, Broeg, Christopher, Brousseau, Denis, Cabral, Alexandre, Cadieux, Charles, Carmona, Andres, Challita, Zalpha, Chazelas, Bruno, Coelho, João, Cointepas, Marion, Silva, Ana Rita Costa, Coulombe, Louis-Philippe, Cristo, Eduardo, Darveau-Bernier, Antoine, Dauplaise, Laurie, Gomes, Roseane de Lima, Fontinele, Dasaev O., Frensch, Yolanda G. C., Genest, Frédéric, Genolet, Ludovic, Témich, Félix Gracia, Hernandez, Olivier, Hoeijmakers, H. Jens, Hubin, Norbert, Jayawardhana, Ray, Käufl, Hans-Ulrich, Kerley, Dan, Kolb, Johann, Krishnamurthy, Vigneshwaran, Kung, Benjamin, Lamontagne, Pierrot, Lim, Olivia, Curto, Gaspare Lo, Rasilla, José Luis, Martins, Allan M., Matthews, Jaymie, Mayer, Jean-Sébastien, Messias, Yuri S., Metchev, Stan, Mounzer, Dany, Nari, Nicola, Osborn, Ares, Ouellet, Mathieu, Parc, Léna, Pasquini, Luca, Peroux, Céline, Piaulet-Ghorayeb, Caroline, Pompei, Emanuela, Poulin-Girard, Anne-Sophie, Reshetov, Vladimir, Saint-Antoine, Jonathan, Sarajlic, Mirsad, Schnell, Robin, Segovia, Alex, Seidel, Julia, Silber, Armin, Sinclair, Peter, Sordet, Michael, Sosnowska, Danuta, Srivastava, Avidaan, Stefanov, Atanas K., Teixeira, Márcio A., Thibault, Simon, Vallée, Philippe, Vandal, Thomas, Vaulato, Valentina, Wehbe, Bachar, Weisserman, Drew, Wevers, Ivan, Wildi, François, Yariv, Vincent, Zins, Gérard
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2508.06626
Tags: Tag hinzufügen
Keine Tags, Fügen Sie den ersten Tag hinzu!
Inhaltsangabe:
  • The intense stellar irradiation of ultra-hot Jupiters results in some of the most extreme atmospheric environments in the planetary regime. On their daysides, temperatures can be sufficiently high for key atmospheric constituents to thermally dissociate into simpler molecular species and atoms. This dissociation drastically changes the atmospheric opacities and, in turn, critically alters the temperature structure, atmospheric dynamics, and day-night heat transport. To this date, however, simultaneous detections of the dissociating species and their thermally dissociation products in exoplanet atmospheres have remained rare. Here we present the simultaneous detections of H$_2$O and its thermally dissociation product OH on the dayside of the ultra-hot Jupiter WASP-121 b based on high-resolution emission spectroscopy with the recently commissioned Near InfraRed Planet Searcher (NIRPS). We retrieve a photospheric abundance ratio of log$_{10}$(OH/H$_2$O) $= -0.15\pm{0.20}$ indicating that there is about as much OH as H$_2$O at photospheric pressures, which confirms predictions from chemical equilibrium models. We compare the dissociation on WASP-121 b with other ultra-hot Jupiters and show that a trend in agreement with equilibrium models arises. We also discuss an apparent velocity shift of $4.79^{+0.93}_{-0.97} $km s$^{-1}$ in the H$_2$O signal, which is not reproduced by current global circulation models. Finally, in addition to H$_2$O and OH, the NIRPS data reveal evidence of Fe and Mg, from which we infer a Fe/Mg ratio consistent with the solar and host star ratios. Our results demonstrate that NIRPS can be an excellent instrument to obtain simultaneous measurements of refractory and volatile molecular species, paving the way for many future studies on the atmospheric composition, chemistry, and the formation history of close-in exoplanets.