Failed jet breakout in the metal-poor broad-lined type Ic supernova 2026gzf

Agnes P. C. van Hoof; Alan M. Watson; Amit Kumar; Ana Mar\'ia Nicuesa Guelbenzu; Andrea Melandri; Andrea Reguitti; Andrea Rossi; Andrea Saccardi; Andrew J. Levan; Andrew S. Fruchter

arxiv: 2606.10002 · v1 · pith:QSRCGT2Vnew · submitted 2026-06-08 · 🌌 astro-ph.HE

Failed jet breakout in the metal-poor broad-lined type Ic supernova 2026gzf

Antonio Martin-Carrillo , Christina C. Th\"one , James K. Leung , Gregory Corcoran , Antonio de Ugarte Postigo , Peter G. Jonker , Luca Izzo , Andrew J. Levan

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Benjamin P. Gompertz St\'ephane Basa Nikhil Sarin Jonathan Quirola-V\'asquez Rob A. J. Eyles-Ferris Riccardo Brivio Alan M. Watson Laura Cotter Jennifer Alexandra Chac\'on Andrea Rossi Andrea Melandri Piramon Kumnurdmanee Nial R. Tanvir Anshika Gupta Franz E. Bauer Jean-Gr\'egoire Ducoin Andrea Reguitti Kuntal Misra Dong Xu Susanna D. Vergani Wen-fai Fong Kendall Ackley Edilberto Aguilar-Ruiz Dalya Akl Miguel \'Angel Aloy Jie An Camila Angulo-Valdez Sarah Antier Jean-Luc Atteia Rosa L. Becerra Rene P. Breton Nathaniel R. Butler Sergio Campana Francesco Carotenuto Jorge Casares Vel\'azquez Ashley A. Chrimes Valerio D'Elia Joyce N. D. van Dalen Fabio De Colle Massimiliano De Pasquale Vik S. Dhillon Damien Dornic Martin J. Dyer Matteo Ferro Morgan Fraser Andrew S. Fruchter Francis Fortin Duncan K. Galloway Leonardo Garc\'ia-Garc\'ia Stefan Geier Ramandeep Gill No\'emie Globus Roberto Gualandi Marion Guelfand Francesco Guidolin Dieter H. Hartmann Agnes P. C. van Hoof Pall Jakobsson Divyanshu Janghel Tom L. Killestein Sylvio Klose Shiho Kobayashi Rubina Kotak Amit Kumar Asuka Kuwata Tanmoy Laskar William H. Lee Massimiliano Lincetto Gianluca Lombardi Diego L\'opez-C\'amara Joseph D. Lyman Elisabetta Maiorano Keiichi Maeda Nikos Mandarakas Francesco Magnani Jirong Mao Enrique Moreno M\'endez Ana Mar\'ia Nicuesa Guelbenzu Kanthanakorn Noysena Laura K. Nuttall Paul T. O'Brien David O'Neill Paolo Ochner Margarita Pereyra Giovanna Pugliese Gavin Ramsay Lauren Rhodes Andrea Saccardi Ruben Salvaterra Fredd S\'anchez \'Alvarez Benjamin Schneider Steve Schulze Rhaana L. C. Starling Danny Steeghs Kzrysztof Ulaczyk Chiara Ventura Tayyaba Zafar Zi-Pei Zhu

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keywords jetsemissionassociatedic-blbroad-linedchokedcircumstellarhigh-energy

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A long-standing question in the death of massive stars is the role of relativistic jets. While many gamma-ray bursts and some fast X-ray transients seem to be associated with broad-lined type Ic supernovae, the opposite is not true. The lack of observable jet emission in those Ic-BL SNe can be explained by invoking off-axis jets, choked jets that inject all their energy into the stellar envelope, baryon-loaded jets for which the prompt high-energy emission is strongly suppressed, or non-jetted SNe. The lack of exact explosion time in the majority of SNe presents an obstacle to distinguish between these scenarios. Here we report the properties of SN 2026gzf associated with the X-ray thermal Einstein Probe shock-breakout EP260321a at z=0.0343. The absence of compelling shocked cocoon and radio emission up to 54 days, combined with initial expansion velocities of ~30,000 km/s and a circumstellar shell of ~0.07 M$_\odot$, favour a scenario for SN 2026gzf in which a jet was choked in the circumstellar shell. Our high-spatial resolution images of the SN environment show that the progenitor was located between two highly star-forming regions with a metallicity lower than any previously known Ic-BL SN. As the first case of a Ic-BL SN associated with high-energy prompt emission without the signature of a jet, SN 2026gzf provides a unique perspective to understand the successful launch of relativistic jets during the deaths of massive stars.

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Failed jet breakout in the metal-poor broad-lined type Ic supernova 2026gzf

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