Energetic eruptions leading to a peculiar hydrogen-rich explosion of a massive star
Abstract
Every supernova so far observed has been considered to be the terminal explosion of a star. Moreover, all supernovae with absorption lines in their spectra show those lines decreasing in velocity over time, as the ejecta expand and thin, revealing slower-moving material that was previously hidden. In addition, every supernova that exhibits the absorption lines of hydrogen has one main light-curve peak, or a plateau in luminosity, lasting approximately 100 days before declining1. Here we report observations of iPTF14hls, an event that has spectra identical to a hydrogen-rich core-collapse supernova, but characteristics that differ extensively from those of known supernovae. The light curve has at least five peaks and remains bright for more than 600 days; the absorption lines show little to no decrease in velocity; and the radius of the line-forming region is more than an order of magnitude bigger than the radius of the photosphere derived from the continuum emission. These characteristics are consistent with a shell of several tens of solar masses ejected by the progenitor star at supernova-level energies a few hundred days before a terminal explosion. Another possible eruption was recorded at the same position in 1954. Multiple energetic pre-supernova eruptions are expected to occur in stars of 95 to 130 solar masses, which experience the pulsational pair instability. That model, however, does not account for the continued presence of hydrogen, or the energetics observed here. Another mechanism for the violent ejection of mass in massive stars may be required.
Additional Information
© 2017 Macmillan Publishers Limited, part of Springer Nature. Received: 28 September 2016; Accepted: 16 August 2017; Published online: 08 November 2017. I. Arcavi is an Einstein Fellow. B.S. is a Hubble Fellow and a Carnegie-Princeton Fellow. A.V.F. is a Miller Senior Fellow. See the Supplementary Information for a full list of Acknowledgements. Contributions: I. Arcavi initiated the study, triggered follow-up observations, reduced data, performed the analysis and wrote the manuscript. D.A.H. is the Principal Investigator of the Las Cumbres Observatory (LCO) Supernova Key Project through which all of the LCO data were obtained; he also assisted with interpretation and the manuscript. D. Kasen and L.B. assisted with theoretical models, data interpretation, and with the manuscript. G.H. and C.McC. assisted with obtaining and reducing LCO data. Z.C.W. first flagged the supernova as interesting. S.R.K. performed the spectral expansion velocity measurements. A.G.-Y. is the Principal Investigator for core-collapse supernovae in iPTF and assisted with interpretation. J.S. and F.T. obtained the Nordic Optical Telescope spectra and polarimetry data and assisted with the manuscript. G.L. reduced the polarimetry data. C.F. reduced the Palomar 60-inch telescope (P60) data. P.E.N. discovered the 1954 eruption image of iPTF14hls, helped obtain the host-galaxy spectrum, and is a Co-Principal Investigator of the Keck proposal under which it and one of the supernova spectra were obtained. A.H. obtained and reduced the Very Large Array (VLA) data and is Principal Investigator of the programme through which the data were obtained. K.M. and C.R. obtained and reduced the Arcminute Microkelvin Imager Large Array (AMI-LA) data. S.B.C. obtained and reduced the Swift X-Ray Telescope (XRT) data. M.L.G. obtained and reduced Keck spectra. D.A.P. performed the host-galaxy analysis and assisted with the manuscript. E.N., O.B., N.J.S. and K.J.S. assisted with theoretical interpretation and the manuscript. E.O.O. helped with interpretation and the manuscript. Y.C. built the real-time iPTF image-subtraction pipeline and obtained Palomar 200-inch telescope (P200) observations. X.W., F.H., L.R., T.Z., W.L., Z.L. and J.Z. obtained and reduced the Xinglong, Lijiang, and Tsinghua University-NAOC telescope (TNT) data. S.V. built the LCO photometric and spectroscopic reduction pipelines and assisted with LCO observations, interpretation, and the manuscript. D.G. assisted with the Palomar Observatory Sky Survey (POSS) image analysis. B.S., C.S.K. and T.W.-S.H. obtained and reduced the All Sky Automated Survey for Supernovae (ASAS-SN) pre-discovery limits. A.V.F. is a Co-Principal Investigator of the Keck proposal under which the host-galaxy spectrum and one of the supernova spectra were obtained; he also helped with the manuscript. R.F. is Principal Investigator of the programme through which the AMI-LA data were obtained. A.N. helped scan for iPTF candidates and assisted with the manuscript. O.Y. is in charge of the iPTF candidate scanning effort. M.M.K. led the work for building iPTF. M.S. wrote the pipeline used to reduce Palomar 48-inch Oschin Schmidt telescope (P48) data. N.B. and R.S.W. obtained P60 SEDM photometry. R.L., D. Khazov, and I. Andreoni obtained P200 observations. R.R.L. contributed to building the P48 image-processing pipeline. N.K. was a main builder of the P60 SEDM. P.W. and B.B. helped build the machine-learning algorithms that identify iPTF supernova candidates. Competing interests: The authors declare no competing financial interests. Reviewer Information: Nature thanks P. Mazzali, S. Woosley and the other anonymous reviewer(s) for their contribution to the peer review of this work.Attached Files
Supplemental Material - nature24030-s1.pdf
Supplemental Material - nature24030-sf1.jpg
Supplemental Material - nature24030-sf2.jpg
Supplemental Material - nature24030-sf3.jpg
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Supplemental Material - nature24030-sf7.jpg
Supplemental Material - nature24030-sf8.jpg
Supplemental Material - nature24030-st1.jpg
Supplemental Material - nature24030-st2.jpg
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Additional details
- Eprint ID
- 80349
- DOI
- 10.1038/nature24030
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- CaltechAUTHORS:20170814-094646452
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2017-11-09Created from EPrint's datestamp field
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