分类: 天文学 >> 天文学 提交时间: 2023-02-19
Rachel J. Bruch
Avishay Gal-Yam
Ofer Yaron
Ping Chen
Nora L. Strotjohann
Ido Irani
Erez Zimmerman
Steve Schulze
Yi Yang
Young-Lo Kim
Mattia Bulla
Jesper Sollerman
Mickael Rigault
Eran Ofek
Maayane Soumagnac
Frank J. Masci
Christoffer Fremling
Daniel Perley
Jakob Nordin
S. Bradley Cenko
摘要: Narrow transient emission lines (flash-ionization features) in early supernova (SN) spectra trace the presence of circumstellar material (CSM) around the massive progenitor stars of core-collapse SNe. The lines disappear within days after the SN explosion, suggesting that this material is spatially confined, and originates from enhanced mass loss shortly (months to a few years) prior to explosion. We performed a systematic survey of H-rich (Type II) SNe discovered within less than two days from explosion during the first phase of the Zwicky Transient Facility (ZTF) survey (2018-2020), finding thirty events for which a first spectrum was obtained within $36\%$ at $95\%$ confidence level) confirms that elevated mass loss in massive stars prior to SN explosion is common. We find that SNe II showing flash ionisation features are not significantly brighter, nor bluer, nor more slowly rising than those without. This implies that CSM interaction does not contribute significantly to their early continuum emission, and that the CSM is likely optically thin. We measured the persistence duration of flash ionisation emission and find that most SNe show flash features for $\approx 5 $ days. Rarer events, with persistence timescales $>10$ days, are brighter and rise longer, suggesting these may be intermediate between regular SNe II and strongly-interacting SNe IIn.
分类: 天文学 >> 天文学 提交时间: 2023-02-19
I. Irani
Ping Chen
Jonathan Morag
S. Schulze
A. Gal-Yam
Nora L. Strotjohann
Ofer Yaron
E. A. Zimmerman
Amir Sharon
Daniel A. Perley
J. Sollerman
Aaron Tohuvavohu
Kaustav K. Das
Mansi M. Kasliwal
Rachel Bruch
Thomas G. Brink
WeiKang Zheng
Kishore C. Patra
Sergiy S. Vasylyev
Alexei V. Filippenko
摘要: We present the discovery and analysis of SN 2022oqm, a Type Ic supernova (SN) detected <1 day after explosion. The SN rises to a blue and short-lived (2 days) initial peak. Early spectral observations of SN 2022oqm show a hot (40,000 K) continuum with high-ionization C and O absorption features at velocities of 4,000 km s$^{-1}$, while its photospheric radius expands at 20,000 km s$^{-1}$, indicating a pre-existing distribution of expanding C/O material, likely ejected around 2 weeks before the explosion. After around 2.5 days, both the spectrum and light curves evolve into those of a typical SN Ic, with line velocities of 10,000 km s$^{-1}$, in agreement with the photospheric radius evolution. The optical light curves reach a second peak around t ~15 days. By t=60 days, the spectrum of SN 2022oqm becomes nearly nebular, displaying strong C II and [Ca II] emission with no detectable [O I] and marking this event as Ca-rich. The early behavior can be explained by $10^{-3}$ solar mass of optically thin circumstellar material (CSM) surrounding either (1) a massive compact progenitor such as a Wolf-Rayet star, (2) a massive stripped progenitor with an extended envelope, or (3) a binary system with a white dwarf. We propose that the early-time light curve is powered by a combination of interaction of the ejecta with the optically thin CSM and shock cooling (in the massive-star scenario), until the radioactive decay of $^{56}$Ni becomes the dominant power source. The observations can be explained by CSM that is optically thick to X-ray photons which are down converted, is optically thick in the lines as seen in the spectra, and is optically thin to visible-light continuum photons that come either from down-converted X-rays or from the shock-heated ejecta. Calculations show that this scenario is self-consistent.
分类: 天文学 >> 天文学 提交时间: 2023-02-19
Nora L. Strotjohann
Eran O. Ofek
Avishay Gal-Yam
Jesper Sollerman
Ping Chen
Ofer Yaron
Barak Zackay
Nabeel Rehemtulla
Phillipe Gris
Frank J. Masci
Ben Rusholme
Josiah Purdum
摘要: The direct detection of core-collapse supernova (SN) progenitor stars is a powerful way of probing the last stages of stellar evolution. However, detections in archival Hubble Space Telescope images are limited to about one per year. Here, we explore whether we can increase the detection rate by using data from ground-based wide-field surveys. Due to crowding and atmospheric blurring, progenitor stars can typically not be identified in pre-explosion images alone. Instead, we combine many pre-SN and late-time images to search for the disappearance of the progenitor star. As a proof of concept, we implement our search for ZTF data. For a few hundred images, we achieve limiting magnitudes of about 23 mag in the g and r band. However, no progenitor stars or long-lived outbursts are detected for 29 SNe within z<0.01, and the ZTF limits are typically several magnitudes less constraining than detected progenitors in the literature. Next, we estimate progenitor detection rates for the Legacy Survey of Space and Time (LSST) with the Vera C. Rubin telescope by simulating a population of nearby SNe. The background from bright host galaxies reduces the nominal LSST sensitivity by, on average, 0.4 mag. Over the ten-year survey, we expect the detection of about 50 red supergiant progenitors and several yellow and blue supergiants. The progenitors of SNe Ib and Ic are detectable if they are brighter than -4.7 mag or -4.0 mag in the LSST i band, respectively. In addition, we expect the detection of hundreds of pre-SN outbursts depending on their brightness and duration.
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