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Outflows from the youngest stars are mostly molecular

Author

Listed:
  • T. P. Ray

    (Dublin Institute for Advanced Studies
    Trinity College Dublin)

  • M. J. McCaughrean

    (European Space Agency, ESTEC)

  • A. Caratti o Garatti

    (INAF - Osservatorio Astronomico di Capodimonte)

  • P. J. Kavanagh

    (Dublin Institute for Advanced Studies
    Maynooth University)

  • K. Justtanont

    (Chalmers University of Technology, Onsala Space Observatory)

  • E. F. Dishoeck

    (Leiden University)

  • M. Reitsma

    (European Space Agency, ESTEC
    Leiden University)

  • H. Beuther

    (Max-Planck-Institut für Astronomie (MPIA))

  • L. Francis

    (Leiden University)

  • C. Gieser

    (Max-Planck-Institut für Extraterrestrische Physik)

  • P. Klaassen

    (Royal Observatory Edinburgh)

  • G. Perotti

    (Max-Planck-Institut für Astronomie (MPIA))

  • L. Tychoniec

    (European Southern Observatory)

  • M. Gelder

    (Leiden University)

  • L. Colina

    (Centro de Astrobiología (CAB, CSIC-INTA), Carretera de Ajalvir)

  • Th. R. Greve

    (Technical University of Denmark)

  • M. Güdel

    (Max-Planck-Institut für Astronomie (MPIA)
    University of Vienna
    ETH Zürich, Institute for Particle Physics and Astrophysics)

  • Th. Henning

    (Max-Planck-Institut für Astronomie (MPIA))

  • P. O. Lagage

    (Université Paris-Saclay, Université Paris Cité, CEA, CNRS, AIM)

  • G. Östlin

    (Stockholm University, AlbaNova University Center)

  • B. Vandenbussche

    (KU Leuven)

  • C. Waelkens

    (KU Leuven)

  • G. Wright

    (Royal Observatory Edinburgh)

Abstract

The formation of stars and planets is accompanied not only by the build-up of matter, namely accretion, but also by its expulsion in the form of highly supersonic jets that can stretch for several parsecs1,2. As accretion and jet activity are correlated and because young stars acquire most of their mass rapidly early on, the most powerful jets are associated with the youngest protostars3. This period, however, coincides with the time when the protostar and its surroundings are hidden behind many magnitudes of visual extinction. Millimetre interferometers can probe this stage but only for the coolest components3. No information is provided on the hottest (greater than 1,000 K) constituents of the jet, that is, the atomic, ionized and high-temperature molecular gases that are thought to make up the jet’s backbone. Detecting such a spine relies on observing in the infrared that can penetrate through the shroud of dust. Here we report near-infrared observations of Herbig-Haro 211 from the James Webb Space Telescope, an outflow from an analogue of our Sun when it was, at most, a few times 104 years old. These observations reveal copious emission from hot molecules, explaining the origin of the ‘green fuzzies’4–7 discovered nearly two decades ago by the Spitzer Space Telescope8. This outflow is found to be propagating slowly in comparison to its more evolved counterparts and, surprisingly, almost no trace of atomic or ionized emission is seen, suggesting its spine is almost purely molecular.

Suggested Citation

  • T. P. Ray & M. J. McCaughrean & A. Caratti o Garatti & P. J. Kavanagh & K. Justtanont & E. F. Dishoeck & M. Reitsma & H. Beuther & L. Francis & C. Gieser & P. Klaassen & G. Perotti & L. Tychoniec & M., 2023. "Outflows from the youngest stars are mostly molecular," Nature, Nature, vol. 622(7981), pages 48-52, October.
    • Handle: RePEc:nat:nature:v:622:y:2023:i:7981:d:10.1038_s41586-023-06551-1
    DOI: 10.1038/s41586-023-06551-1
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