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arxiv: 2507.21751 · v1 · pith:EWNP4EO3new · submitted 2025-07-29 · 🌌 astro-ph.EP · astro-ph.IM· astro-ph.SR

Diving into the planetary system of Proxima with NIRPS -- Breaking the metre per second barrier in the infrared

Alejandro Su\'arez Mascare\~no , \'Etienne Artigau , Lucile Mignon , Xavier Delfosse , Neil J. Cook , Fran\c{c}ois Bouchy , Ren\'e Doyon , Jonay I. Gonz\'alez Hern\'andez
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Thomas Vandal Izan de Castro Le\~ao Atanas K. Stefanov Jo\~ao Faria Charles Cadieux Pierrot Lamontagne Fr\'ed\'erique Baron Susana C. C. Barros Bj\"orn Benneke Xavier Bonfils Marta Bryan Bruno L. Canto Martins Ryan Cloutier Nicolas B. Cowan Daniel Brito de Freitas Jose Renan De Medeiros Elisa Delgado-Mena Pedro Figueira Xavier Dumusque David Ehrenreich David Lafreni\`ere Christophe Lovis Lison Malo Claudio Melo Christoph Mordasini Francesco Pepe Rafael Rebolo Jason Rowe Nuno C. Santos Damien S\'egransan St\'ephane Udry Diana Valencia Gregg Wade Manuel Abreu Jos\'e L. A. Aguiar Khaled Al Moulla Guillaume Allain Romain Allart Tomy Arial Hugues Auger Luc Bazinet Nicolas Blind David Bohlender Isabelle Boisse Anne Boucher Vincent Bourrier S\'ebastien Bovay Christopher Broeg Denis Brousseau Alexandre Cabral Andres Carmona Yann Carteret Zalpha Challita Bruno Chazelas Jo\~ao Coelho Marion Cointepas Uriel Conod Eduardo Cristo Ana Rita Costa Silva Antoine Darveau-Bernier Laurie Dauplaise Jean-Baptiste Delisle Roseane de Lima Gomes Thierry Forveille Yolanda G. C. Frensch F\'elix Gracia T\'emich Dasaev O. Fontinele Jonathan Gagn\'e Fr\'ed\'eric Genest Ludovic Genolet Jo\~ao Gomes da Silva Nolan Grieves Olivier Hernandez Melissa J. Hobson H. Jens Hoeijmakers Norbert Hubin Farbod Jahandar Ray Jayawardhana Hans-Ulrich K\"aufl Dan Kerley Johann Kolb Vigneshwaran Krishnamurthy Benjamin Kung Alexandrine L'Heureux Pierre Larue Henry Leath Olivia Lim Gaspare Lo Curto Allan M. Martins Jaymie Matthews Jean-S\'ebastien Mayer Yuri S. Messias Stan Metchev Leslie Moranta Dany Mounzer Nicola Nari Louise D. Nielsen Ares Osborn Mathieu Ouellet Jon Otegi L\'ena Parc Luca Pasquini Vera M. Passegger Stefan Pelletier C\'eline Peroux Caroline Piaulet-Ghorayeb Mykhaylo Plotnykov Emanuela Pompei Anne-Sophie Poulin-Girard Jos\'e Luis Rasilla Vladimir Reshetov Jonathan Saint-Antoine Mirsad Sarajlic Ivo Saviane Robin Schnell Alex Segovia Julia Seidel Armin Silber Peter Sinclair Michael Sordet Danuta Sosnowska Avidaan Srivastava M\'arcio A. Teixeira Simon Thibault Philippe Vall\'ee Valentina Vaulato Joost P. Wardenier Bachar Wehbe Drew Weisserman Ivan Wevers Fran\c{c}ois Wildi Vincent Yariv G\'erard Zins
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classification 🌌 astro-ph.EP astro-ph.IMastro-ph.SR
keywords proximanirpsdataplanetaryradialcombiningharpsparameters
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We obtained 420 high-resolution spectra of Proxima, over 159 nights, using the Near Infra Red Planet Searcher (NIRPS). We derived 149 nightly binned radial velocity measurements with a standard deviation of 1.69 m/s and a median uncertainty of 55 cm/s, and performed a joint analysis combining radial velocities, spectroscopic activity indicators, and ground-based photometry, to model the planetary and stellar signals present in the data, applying multi-dimensional Gaussian process regression to model the activity signals. We detect the radial velocity signal of Proxima b in the NIRPS data. All planetary characteristics are consistent with those previously derived using visible light spectrographs. In addition, we find evidence of the presence of the sub-Earth Proxima d in the NIRPS data. When combining the data with the HARPS observations taken simultaneous to NIRPS, we obtain a tentative detection of Proxima d and parameters consistent with those measured with ESPRESSO. By combining the NIRPS data with simultaneously obtained HARPS observations and archival data, we confirm the existence of Proxima d, and demonstrate that its parameters are stable over time and against change of instrument. We refine the planetary parameters of Proxima b and d, and find inconclusive evidence of the signal attributed to Proxima c (P = 1900 d) being present in the data. We measure Proxima b and d to have minimum masses of 1.055 $\pm$ 0.055 Me, and 0.260 $\pm$ 0.038 Me, respectively. Our results show that, in the case of Proxima, NIRPS provides more precise radial velocity data than HARPS, and a more significant detection of the planetary signals. The standard deviation of the residuals of NIRPS after the fit is 80 cm/s, showcasing the potential of NIRPS to measure precise radial velocities in the near-infrared.

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