# Atmospheric composition and circulation of the ultra-hot Jupiter WASP-121b with joint NIRPS, HARPS and CRIRES+ transit spectroscopy

**Authors:** Valentina Vaulato, Melissa J. Hobson, Romain Allart, Stefan Pelletier, Joost P. Wardenier, Hritam Chakraborty, David Ehrenreich, Nicola Nari, Michal Steiner, Xavier Dumusque, H. Jens Hoeijmakers, \'Etienne Artigau, Fr\'ed\'erique Baron, Susana C. C. Barros, Bj\"orn Benneke, Xavier Bonfils, Fran\c{c}ois Bouchy, Marta Bryan, Bruno L. Canto Martins, Ryan Cloutier, Neil J. Cook, Nicolas B. Cowan, Jose Renan De Medeiros, Xavier Delfosse, Elisa Delgado-Mena, Ren\'e Doyon, Jonay I. Gonz\'alez Hern\'andez, David Lafreni\`ere, Izan de Castro Le\~ao, Christophe Lovis, Lison Malo, Claudio Melo, Lucile Mignon, Christoph Mordasini, Francesco Pepe, Rafael Rebolo, Jason Rowe, Nuno C. Santos, Damien S\'egransan, Alejandro Su\'arez Mascare\~no, St\'ephane Udry, Diana Valencia, Gregg Wade, Jos\'e L. A. Aguiar, Khaled Al Moulla, Babatunde Akinsanmi, Nicholas W. Borsato, Charles Cadieux, Yann Carteret, Ana Rita Costa Silva, Eduardo A. S. Cristo, Thierry Forveille, Yolanda G. C. Frensch, Nicole Gromek, Monika Lendl, Bibiana Prinoth, Angelica Psaridi, Atanas K. Stefanov, Brian Thorsbro, Drew Weisserman

arXiv: 2509.00151 · 2025-09-03

## TL;DR

This study uses multi-instrument high-resolution transit spectroscopy to analyze the atmospheric composition, chemistry, and circulation of the ultra-hot Jupiter WASP-121b, revealing insights into its chemical equilibrium, dynamics, and orbital parameters.

## Contribution

It provides a comprehensive atmospheric characterization of WASP-121b combining data from HARPS, NIRPS, and CRIRES+ with new orbital analysis, highlighting the planet's chemical composition and circulation patterns.

## Key findings

- Detection of Fe, CO, and V with high significance
- H$_2$O abundance consistent with solar composition
- Measured circulation offset aligns with theoretical models

## Abstract

Ultra-hot Jupiters like WASP-121b provide unique laboratories for studying atmospheric chemistry and dynamics under extreme irradiation. Constraining their composition and circulation is key to tracing planet formation pathways. We present a comprehensive characterisation of WASP-121b using high-resolution transit spectroscopy from HARPS, NIRPS, and CRIRES+ across nine transits, complemented by five TESS sectors, two EulerCam light curves simultaneous with HARPS/NIRPS, and an extensive RV dataset refining orbital parameters. Cross-correlation detects Fe, CO, and V with SNRs of 5.8, 5.0, and 4.7, respectively. Retrieval analysis constrains H$_2$O to $-6.52^{+0.49}_{-0.68}$ dex, though its signal might be muted by the H$^-$ continuum. We measure volatile/refractory ratios, key to uncover planetary chemistry, evolution, and formation. Retrieved values align with solar composition in chemical equilibrium, suggesting minimal disequilibrium chemistry at the probed pressures (around $10^{-4}$-$10^{-3}$ bar). We update WASP-121b's orbital parameters analysing its largest RV dataset to date. Comparing orbital velocities from RVs and atmospheric retrieval reveals a non-zero circulation offset, $\mathrm{\Delta K}_{\mathrm{p}} = -15 \pm 3 \ \mathrm{km}\mathrm{s}^{-1}$ (assuming $\mathrm{M}_{\star} = 1.38 \pm 0.02 \ \mathrm{M}_{\odot}$), consistent with drag-free or weak-drag 3D GCM predictions, though sensitive to stellar mass. These results provide new constraints on WASP-121b's thermal structure, dynamics, and chemistry, underscoring the power of multi-instrument and multi-wavelength high-resolution spectroscopy to probe exoplanet atmospheres.

## Full text

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## Figures

21 figures with captions in the complete paper: https://tomesphere.com/paper/2509.00151/full.md

## References

119 references — full list in the complete paper: https://tomesphere.com/paper/2509.00151/full.md

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Source: https://tomesphere.com/paper/2509.00151