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James Webb study how massive stars' blasts of radiation influence their environments © SCIENCE: NASA, ESA, Massimo Robberto (STScI, ESA), Hubble Space Telescope Orion Treasury Project Team IMAGE PROCESSING: Alyssa Pagan (STScI)

Radiation from massive stars shapes planetary systems

Physics
Universe

How do planetary systems such as the Solar System form? To find out, CNRS scientists taking part in an international research team1  studied a stellar nursery, the Orion Nebula, using the James Webb Space Telescope2 . By observing a protoplanetary disc named d203-506, they have discovered the key role played by massive stars in the formation of such nascent planetary systems3 .

These stars, which are around 10 times more massive, and more importantly 100,000 times more luminous than the Sun, expose any planets forming in such systems nearby to very intense ultraviolet radiation. Depending on the mass of the star at the centre of the planetary system, this radiation can either help planets to form, or alternatively prevent them from doing so by dispersing their matter. In the Orion Nebula, the scientists found that, due to the intense irradiation from massive stars, a Jupiter-like planet would not be able to form in the planetary system d203-506.

This paper, which will make the front page of the journal Science on 1st March, 2024, shows with unprecedented precision the decisive role played by massive stars in shaping planetary systems, and opens up new perspectives on how such systems form.

Hubble image of the Orion Nebula, and a zoom in on the protoplanetary disc d203-506 taken with the James Webb Space Telescope (JWST).
© NASA/STScI/Rice Univ./C.O’Dell et al / O. Berné, I. Schrotter, PDRs4All

 

  • 1The main French laboratories involved in this study are: the Institut de Recherche en Astrophysique et Planétologie (CNES/CNRS/Université Toulouse Paul Sabatier), Institut d'Astrophysique Spatiale (CNRS/Université Paris-Saclay), Laboratoire d'Etudes du Rayonnement et de la Matière en Astrophysique et Atmosphères (CNRS/Université Cergy Paris/Observatoire de Paris-PSL/Sorbonne Université/), and Institut des Sciences Moléculaires d'Orsay (CNRS/Université Paris Saclay). The study is part of the international ' PDRs4All  ' project.
     
  • 2The James Webb Infrared Space Telescope can peer through dust clouds, thus revealing with unparallelled clarity distant celestial bodies such as the Orion Nebula, 1400 light-years from Earth.
     
  • 3Systems that are less than a million years old.
     
Bibliography

A far-ultraviolet-driven photoevaporation flow observed in a protoplanetary disk. Olivier Berné, Emilie Habart, Els Peeters, Ilane Schroetter, Amelie Canin, Ameek Sidhu, Ryan Chown, Emeric Bron, Thomas J. Haworth, Pamela Klaassen, Boris Trahin, Dries Van De Putte, Felipe Alarcon, Marion Zannese, Alain Abergel, Edwin A. Bergin, Jeronimo Bernard-Salas, Christiaan Boersma, Jan Cami, Sara Cuadrado, Emmanuel Dartois, Daniel Dicken, Meriem El-Yajouri, Asuncion Fuente, Javier R. Goicoechea, Karl D. Gordon, Lina Issa, Christine Joblin, Olga Kannavou, Baria Khan, Ozan Lacinbala, David Languignon, Romane Le Gal, Alexandros Maragkoudakis, Raphael Meshaka, Yoko Okada, Takashi Onaka, Sofia Pasquini, Marc W. Pound, Massimo Robberto, Markus Rollig, Bethany Schefter, Thiebaut Schirmer, Thomas Simmer, Benoit Tabone, Alexander G. G. M. Tielens, S´ılvia Vicente, Mark G. Wolfire and PDRs4All team. Science, March 01, 2024.
DOI: 
10.1126/science.adh2861

Contact

Olivier Berné
CNRS researcher
Clémence Ribette
CNRS Press Officer