分类: 天文学 >> 天文学 提交时间: 2023-02-19
Schuyler D. Van Dyk
K. Azalee Bostroem
Jennifer E. Andrews
Yize Dong
Alexei V. Filippenko
Ori D. Fox
Emily Hoang
Griffin Hosseinzadeh
Daryl Janzen
Jacob E. Jencson
Michael J. Lundquist
Nicolas Meza
Dan Milisavljevic
Jeniveve Pearson
David J. Sand
Manisha Shrestha
Stefano Valenti
D. Andrew Howell
摘要: We report analysis using the James Webb Space Telescope (JWST) to identify a candidate progenitor star of the Type II-plateau supernova SN 2022acko in the nearby, barred spiral galaxy NGC 1300. To our knowledge, our discovery represents the first time JWST has been used to localize a progenitor system in pre-explosion archival Hubble Space Telescope (HST) images. We astrometrically registered a JWST NIRCam image from 2023 January, in which the SN was serendipitously captured, to pre-SN HST F160W and F814W images from 2017 and 2004, respectively. A star corresponding precisely to the SN position has been isolated with reasonable confidence, although a ~2.9 sigma difference exists between the measured position for the star from HST and the transformed SN position from JWST. That star has a spectral energy distribution and overall luminosity consistent with a single-star model having an initial mass somewhat less than the canonical 8 Msun theoretical threshold for core collapse, although the star's initial mass is inconsistent with that of a super-asymptotic giant branch star which might be a forerunner of an electron-capture SN. The properties of the progenitor alone imply that SN 2022acko is a relatively normal SN II-P, albeit most likely a low-luminosity one. The progenitor candidate should be confirmed with follow-up HST imaging at late times, when the SN has sufficiently faded. This potential use of JWST opens a new era of identifying SN progenitor candidates at high spatial resolution.
分类: 天文学 >> 天文学 提交时间: 2023-02-19
Mojgan Aghakhanloo
Nathan Smith
Peter Milne
Jennifer E. Andrews
Alexei V. Filippenko
Jacob E. Jencson
David J. Sand
Schuyler D. Van Dyk
Samuel Wyatt
WeiKang Zheng
摘要: We analyse photometric observations of the supernova (SN) impostor SN 2000ch in NGC 3432 covering the time since its discovery. This source was previously observed to have four outbursts in 2000-2010. Observations now reveal at least three additional outbursts in 2004-2007, and sixteen outbursts in 2010-2022. Outburst light curves are irregular and multipeaked, exhibiting a wide variety of peak magnitude, duration, and shape. The outbursts after 2008 repeat with a period of 200.7$\pm{2}$ d, while the outburst in 2000 seems to match with a shorter period. The next outburst should occur around January/February 2023. We propose that these periodic eruptions arise from violent interaction around times of periastron in an eccentric binary system, similar to the periastron encounters of $\eta$ Carinae leading up to its Great Eruption, and resembling the erratic pre-SN eruptions of SN 2009ip. We attribute the irregularity of the eruptions to the interplay between the orbit and the variability of the luminous blue variable (LBV) primary star, wherein each successive periastron pass may have a different intensity or duration due to the changing radius and mass-loss rate of the LBV-like primary. Such outbursts may occasionally be weak or undetectable if the LBV is relatively quiescent at periastron, but can be much more extreme when the LBV is active. The observed change in orbital period may be a consequence of mass lost in outbursts. Given the similarity to the progenitor of SN 2009ip, SN 2000ch deserves continued attention in the event it is headed for a stellar merger or a SN-like explosion.
分类: 天文学 >> 天文学 提交时间: 2023-02-19
Melissa Shahbandeh
Arkaprabha Sarangi
Tea Temim
Tamas Szalai
Ori D. Fox
Samaporn Tinyanont
Eli Dwek
Luc Dessart
Alexei V. Filippenko
Thomas G. Brink
Ryan J. Foley
Jacob Jencson
Justin Pierel
Szanna Zsiros
Armin Rest
WeiKang Zheng
Jennifer Andrews
Geoffrey C. Clayton
Kishalay De
Michael Engesser
摘要: Supernova (SN) explosions have been sought for decades as a possible source of dust in the Universe, providing the seeds of galaxies, stars, and planetary systems. SN 1987A offers one of the most promising examples of significant SN dust formation, but until the James Webb Space Telescope (JWST), instruments have traditionally lacked the sensitivity at both late times (>1 yr post-explosion) and longer wavelengths (i.e., >10 um) to detect analogous dust reservoirs. Here we present JWST/MIRI observations of two historic Type IIP SNe, 2004et and SN 2017eaw, at nearly 18 and 5 yr post-explosion, respectively. We fit the spectral energy distributions as functions of dust mass and temperature, from which we are able to constrain the dust geometry, origin, and heating mechanism. We place a 90% confidence lower limit on the dust masses for SNe 2004et and 2017eaw of >0.014 and >4e-4 M_sun, respectively. More dust may exist at even colder temperatures or may be obscured by high optical depths. We conclude dust formation in the ejecta to be the most plausible and consistent scenario. The observed dust is radiatively heated to ~100-150 K by ongoing shock interaction with the circumstellar medium. Regardless of the best fit or heating mechanism adopted, the inferred dust mass for SN 2004et is the second highest (next to SN 1987A) inferred dust mass in extragalactic SNe thus far, promoting the prospect of SNe as potential significant sources of dust in the Universe.
分类: 天文学 >> 天文学 提交时间: 2023-02-19
Schuyler D. Van Dyk
Asia de Graw
Raphael Baer-Way
WeiKang Zheng
Alexei V. Filippenko
Ori D. Fox
Nathan Smith
Thomas G. Brink
Thomas de Jaeger
Patrick L. Kelly
Sergiy S. Vasylyev
摘要: As part of a larger completed Hubble Space Telescope (HST) Snapshot program, we observed the sites of six nearby core-collapse supernovae (SNe) at high spatial resolution: SN 2012A, SN 2013ej, SN 2016gkg, SN 2017eaw, SN 2018zd, and SN 2018aoq. These observations were all conducted at sufficiently late times in each SN's evolution to demonstrate that the massive-star progenitor candidate identified in each case in pre-explosion imaging data had indeed vanished and was therefore most likely the actual progenitor. However, we have determined for SN 2016gkg that the progenitor candidate was most likely a blend of two objects: the progenitor, which itself has likely vanished, and another closely-neighbouring star. We thus provide a revised estimate of that progenitor's properties: a binary system with a hydrogen-stripped primary star at explosion with effective temperature ~6300--7900 K, bolometric luminosity ~10^{4.65} L_sun, radius ~118--154 R_sun, and initial mass 9.5--11 M_sun. Utilising late-time additional archival HST data nearly contemporaneous with our Snapshots, we also show that SN 2017eaw had a luminous ultraviolet excess, which is best explained as a result of ongoing interaction of the SN shock with pre-existing circumstellar matter. We offer the caveat, particularly in the case of SN 2013ej, that obscuration from SN dust may be compromising our conclusions. This sample adds to the growing list of confirmed or likely core-collapse SN progenitors.
分类: 天文学 >> 天文学 提交时间: 2023-02-19
Mojgan Aghakhanloo
Nathan Smith
Peter Milne
Jennifer E. Andrews
Alexei V. Filippenko
Jacob E. Jencson
David J. Sand
Schuyler D. Van Dyk
Samuel Wyatt
WeiKang Zheng
摘要: We present the first analysis of photometric observations of the supernova (SN) impostor AT 2016blu located in the galaxy NGC 4559. This transient source was discovered by the Lick Observatory Supernova Search in January 2012 and has continued its eruptive variability since then. Photometry of AT 2016blu reveals at least 19 outbursts in 2012-2022. AT 2016blu's outbursts show irregular variability with multiple closely spaced peaks of varying brightness. While the individual outbursts have irregular light curves, concentrations of these peaks seem to repeat with a period of roughly 110-115 d. Based on this period, the next outburst of AT 2016blu should occur around February 2023. AT 2016blu shares some similarities with SN 2000ch in NGC 3432, where it has been proposed that brightening episodes are caused by violent encounters at periastron in a binary system containing a luminous blue variable (LBV). We propose that AT 2016blu outbursts are also driven by binary interactions that intensify around times of periastron in an eccentric system. The intrinsic variability of the LBV-like primary star may cause different intensity and duration of binary interaction at each periastron passage. The binary interaction of AT 2016blu also resembles the periastron encounters of $\eta$ Carinae leading up to its Great Eruption and the erratic pre-SN eruptions of SN 2009ip. This similarity suggests that AT 2016blu might also be headed for a catastrophe, making it a target of great interest.
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