PDRs4All II: JWST's NIR and MIR imaging view of the Orion Nebula

Emilie Habart; Els Peeters; Olivier Bern\'e; Boris Trahin; Am\'elie; Canin; Ryan Chown; Ameek Sidhu; Dries Van De Putte; Felipe Alarc\'on; Ilane; Schroetter; Emmanuel Dartois; S\'ilvia Vicente; Alain Abergel; Edwin A.; Bergin; Jeronimo Bernard-Salas; Christiaan Boersma; Emeric Bron; Jan Cami,; Sara Cuadrado; Daniel Dicken; Meriem Elyajouri; Asunci\'on 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 R\"ollig; Bethany Schefter,; Thi\'ebaut Schirmer; Benoit Tabone; Alexander G. G. M. Tielens; Mark G.; Wolfire; Marion Zannese; Nathalie Ysard; Marc-Antoine Miville-Deschenes,; Isabel Aleman; Louis Allamandola; Rebecca Auchettl; Giuseppe Antonio Baratta,; Salma Bejaoui; Partha P. Bera; John H. Black; Francois Boulanger; Jordy; Bouwman; Bernhard Brandl; Philippe Brechignac; Sandra Br\"unken; Mridusmita; Buragohain; rew Burkhardt; Alessandra Candian; St\'ephanie Cazaux; Jose; Cernicharo; Marin Chabot; Shubhadip Chakraborty; Jason Champion; Sean W.J.; Colgan; Ilsa R. Cooke; Audrey Coutens; Nick L.J. Cox; Karine Demyk; Jennifer; Donovan Meyer; Sacha Foschino; Pedro Garc\'ia-Lario; Lisseth Gavilan,; Maryvonne Gerin; Carl A. Gottlieb; Pierre Guillard; Antoine Gusdorf; Patrick; Hartigan; Jinhua He; Eric Herbst; Liv Hornekaer; Cornelia J\"ager; Eduardo; Janot-Pacheco; Michael Kaufman; Francisca Kemper; Sarah Kendrew; Maria S.; Kirsanova; Pamela Klaassen; Sun Kwok; \'Alvaro Labiano; Thomas S.-Y. Lai,; Timothy J. Lee; Bertrand Lefloch; Franck Le Petit; Aigen Li; Hendrik Linz,; Cameron J. Mackie; Suzanne C. Madden; Jo\"elle Mascetti; Brett A. McGuire,; Pablo Merino; Elisabetta R. Micelotta; Karl Misselt; Jon A. Morse; Giacomo; Mulas; Naslim Neelamkodan; Ryou Ohsawa; Alain Omont; Roberta Paladini; Maria; Elisabetta Palumbo; Amit Pathak; Yvonne J. Pendleton; Annemieke Petrignani,; Thomas Pino; Elena Puga; Naseem Rangwala; Mathias Rapacioli; Alessandra; Ricca; Julia Roman-Duval; Joseph Roser; Evelyne Roueff; Ga\"el Rouill\'e,; Farid Salama; Dinalva A. Sales; Karin Sandstrom; Peter Sarre; Ella; Sciamma-O'Brien; Kris Sellgren; Sachindev S. Shenoy; David Teyssier; Richard; D. Thomas; Aditya Togi; Laurent Verstraete; Adolf N. Witt; Alwyn Wootten,; Henning Zettergren; Yong Zhang; Ziwei E. Zhang; Junfeng Zhen

arXiv:2308.16732·astro-ph.GA·May 15, 2024·1 cites

PDRs4All II: JWST's NIR and MIR imaging view of the Orion Nebula

Emilie Habart, Els Peeters, Olivier Bern\'e, Boris Trahin, Am\'elie, Canin, Ryan Chown, Ameek Sidhu, Dries Van De Putte, Felipe Alarc\'on, Ilane, Schroetter, Emmanuel Dartois, S\'ilvia Vicente, Alain Abergel, Edwin A., Bergin, Jeronimo Bernard-Salas, Christiaan Boersma

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TL;DR

JWST's high-resolution infrared imaging of the Orion Nebula reveals unprecedented details of the interaction zones between ionized, dissociated, and molecular regions, enhancing understanding of radiative feedback and PDR structures in star-forming environments.

Contribution

This study provides the first detailed high-angular resolution imaging of the Orion Nebula's PDR, revealing complex structures and revisiting the classical 2D PDR model with new observational data.

Findings

01

Revealed hyper-structured molecular cloud borders at small scales.

02

Detected bright features associated with irradiated molecular condensations.

03

Mapped the complex, folded structure of the dissociation front surface.

Abstract

The JWST has captured the most detailed and sharpest infrared images ever taken of the inner region of the Orion Nebula, the nearest massive star formation region, and a prototypical highly irradiated dense photo-dissociation region (PDR). We investigate the fundamental interaction of far-ultraviolet photons with molecular clouds. The transitions across the ionization front (IF), dissociation front (DF), and the molecular cloud are studied at high-angular resolution. These transitions are relevant to understanding the effects of radiative feedback from massive stars and the dominant physical and chemical processes that lead to the IR emission that JWST will detect in many Galactic and extragalactic environments. Due to the proximity of the Orion Nebula and the unprecedented angular resolution of JWST, these data reveal that the molecular cloud borders are hyper structured at small…

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Taxonomy

TopicsAstrophysics and Star Formation Studies · Molecular Spectroscopy and Structure · Atmospheric Ozone and Climate