Your search keyword '"Bostroem, K. Azalee"' showing total 19 results

1. Circumstellar Interaction in the Ultraviolet Spectra of SN 2023ixf 14–66 Days After Explosion.

Author

Bostroem, K. Azalee, Sand, David J., Dessart, Luc, Smith, Nathan, Jha, Saurabh W., Valenti, Stefano, Andrews, Jennifer E., Dong, Yize, Filippenko, Alexei V., Gomez, Sebastian, Hiramatsu, Daichi, Hoang, Emily T., Hosseinzadeh, Griffin, Howell, D. Andrew, Jencson, Jacob E., Lundquist, Michael, McCully, Curtis, Mehta, Darshana, Meza-Retamal, Nicolas E., and Pearson, Jeniveve

Published

2024

2. Ejecta Masses in Type Ia Supernovae—Implications for the Progenitor and the Explosion Scenario.

Author

Bora, Zsófia, Könyves-Tóth, Réka, Vinkó, József, Bánhidi, Dominik, Bíró, Imre Barna, Bostroem, K. Azalee, Bódi, Attila, Burke, Jamison, Csányi, István, Cseh, Borbála, Farah, Joseph, Filippenko, Alexei V., Hegedüs, Tibor, Hiramatsu, Daichi, Horti-Dávid, Ágoston, Howell, D. Andrew, Jha, Saurabh W., Kalup, Csilla, Krezinger, Máté, and Kriskovics, Levente

Subjects

TYPE I supernovae, RADIATIVE transfer, NUCLEOSYNTHESIS, SUPERNOVAE, ASTROPHYSICS

Abstract

The progenitor system(s) as well as the explosion mechanism(s) of thermonuclear (Type Ia) supernovae are long-standing issues in astrophysics. Here we present ejecta masses and other physical parameters for 28 recent Type Ia supernovae inferred from multiband photometric and optical spectroscopic data. Our results confirm that the majority of SNe Ia show observable ejecta masses below the Chandrasekhar-limit (having a mean M ej ≈ 1.1 ± 0.3 M ⊙), consistent with the predictions of recent sub- M Ch explosion models. They are compatible with models assuming either single- or double-degenerate progenitor configurations. We also recover a sub-sample of supernovae within 1.2 M ⊙ < M ej < 1.5 M ⊙ that are consistent with near-Chandrasekhar explosions. Taking into account the uncertainties of the inferred ejecta masses, about half of our SNe are compatible with both explosion models. We compare our results with those in previous studies, and discuss the caveats and concerns regarding the applied methodology. [ABSTRACT FROM AUTHOR]

Published

2024

3. Strong Carbon Features and a Red Early Color in the Underluminous Type Ia SN 2022xkq.

Author

Pearson, Jeniveve, Sand, David J., Lundqvist, Peter, Galbany, Lluís, Andrews, Jennifer E., Bostroem, K. Azalee, Dong, Yize, Hoang, Emily, Hosseinzadeh, Griffin, Janzen, Daryl, Jencson, Jacob E., Lundquist, Michael J., Mehta, Darshana, Meza Retamal, Nicolás, Shrestha, Manisha, Valenti, Stefano, Wyatt, Samuel, Anderson, Joseph P., Ashall, Chris, and Auchettl, Katie

Subjects

TYPE I supernovae, OPTICAL spectra, WHITE dwarf stars, LIGHT curves

Abstract

We present optical, infrared, ultraviolet, and radio observations of SN 2022xkq, an underluminous fast-declining Type Ia supernova (SN Ia) in NGC 1784 (D ≈ 31 Mpc), from <1 to 180 days after explosion. The high-cadence observations of SN 2022xkq, a photometrically transitional and spectroscopically 91bg-like SN Ia, cover the first days and weeks following explosion, which are critical to distinguishing between explosion scenarios. The early light curve of SN 2022xkq has a red early color and exhibits a flux excess that is more prominent in redder bands; this is the first time such a feature has been seen in a transitional/91bg-like SN Ia. We also present 92 optical and 19 near-infrared (NIR) spectra, beginning 0.4 days after explosion in the optical and 2.6 days after explosion in the NIR. SN 2022xkq exhibits a long-lived C i 1.0693 μ m feature that persists until 5 days post-maximum. We also detect C ii λ 6580 in the pre-maximum optical spectra. These lines are evidence for unburnt carbon that is difficult to reconcile with the double detonation of a sub-Chandrasekhar mass white dwarf. No existing explosion model can fully explain the photometric and spectroscopic data set of SN 2022xkq, but the considerable breadth of the observations is ideal for furthering our understanding of the processes that produce faint SNe Ia. [ABSTRACT FROM AUTHOR]

Published

2024

4. A JWST Near- and Mid-infrared Nebular Spectrum of the Type Ia Supernova 2021aefx

Author

Kwok, Lindsey A., Jha, Saurabh W., Temim, Tea, Fox, Ori D., Larison, Conor, Camacho-Neves, Yssavo, Brenner Newman, Max J., Pierel, Justin D. R., Foley, Ryan J., Andrews, Jennifer E., Badenes, Carles, Barna, Barnabas, Bostroem, K. Azalee, Deckers, Maxime, Floers, Andreas, Garnavich, Peter, Graham, Melissa L., Graur, Or, Hosseinzadeh, Griffin, Howell, D. Andrew, Hughes, John P., Johansson, Joel, Kendrew, Sarah, Kerzendorf, Wolfgang E., Maeda, Keiichi, Maguire, Kate, McCully, Curtis, O'Brien, John T., Rest, Armin, Sand, David J., Shahbandeh, Melissa, Strolger, Louis-Gregory, Szalai, Tamas, Ashall, Chris, Baron, E., Burns, Chris R., DerKacy, James M., Evans, Tyco Mera, Fisher, Alec, Galbany, Lluis, Hoeflich, Peter, Hsiao, Eric, de Jaeger, Thomas, Karamehmetoglu, Emir, Krisciunas, Kevin, Kumar, Sahana, Lu, Jing, Maund, Justyn, Mazzali, Paolo A., Medler, Kyle, Morrell, Nidia, Phillips, Mark. M., Shappee, Benjamin J., Stritzinger, Maximilian, Suntzeff, Nicholas, Telesco, Charles, Tucker, Michael, Wang, Lifan, Kwok, Lindsey A., Jha, Saurabh W., Temim, Tea, Fox, Ori D., Larison, Conor, Camacho-Neves, Yssavo, Brenner Newman, Max J., Pierel, Justin D. R., Foley, Ryan J., Andrews, Jennifer E., Badenes, Carles, Barna, Barnabas, Bostroem, K. Azalee, Deckers, Maxime, Floers, Andreas, Garnavich, Peter, Graham, Melissa L., Graur, Or, Hosseinzadeh, Griffin, Howell, D. Andrew, Hughes, John P., Johansson, Joel, Kendrew, Sarah, Kerzendorf, Wolfgang E., Maeda, Keiichi, Maguire, Kate, McCully, Curtis, O'Brien, John T., Rest, Armin, Sand, David J., Shahbandeh, Melissa, Strolger, Louis-Gregory, Szalai, Tamas, Ashall, Chris, Baron, E., Burns, Chris R., DerKacy, James M., Evans, Tyco Mera, Fisher, Alec, Galbany, Lluis, Hoeflich, Peter, Hsiao, Eric, de Jaeger, Thomas, Karamehmetoglu, Emir, Krisciunas, Kevin, Kumar, Sahana, Lu, Jing, Maund, Justyn, Mazzali, Paolo A., Medler, Kyle, Morrell, Nidia, Phillips, Mark. M., Shappee, Benjamin J., Stritzinger, Maximilian, Suntzeff, Nicholas, Telesco, Charles, Tucker, Michael, and Wang, Lifan

Abstract

We present JWST near-infrared (NIR) and mid-infrared (MIR) spectroscopic observations of the nearby normal Type Ia supernova (SN) SN 2021aefx in the nebular phase at +255 days past maximum light. Our Near Infrared Spectrograph (NIRSpec) and Mid Infrared Instrument observations, combined with ground-based optical data from the South African Large Telescope, constitute the first complete optical+NIR+MIR nebular SN Ia spectrum covering 0.3-14 mu m. This spectrum unveils the previously unobserved 2.5-5 mu m region, revealing strong nebular iron and stable nickel emission, indicative of high-density burning that can constrain the progenitor mass. The data show a significant improvement in sensitivity and resolution compared to previous Spitzer MIR data. We identify numerous NIR and MIR nebular emission lines from iron-group elements as well as lines from the intermediate-mass element argon. The argon lines extend to higher velocities than the iron-group elements, suggesting stratified ejecta that are a hallmark of delayed-detonation or double-detonation SN Ia models. We present fits to simple geometric line profiles to features beyond 1.2 mu m and find that most lines are consistent with Gaussian or spherical emission distributions, while the [Ar iii] 8.99 mu m line has a distinctively flat-topped profile indicating a thick spherical shell of emission. Using our line profile fits, we investigate the emissivity structure of SN 2021aefx and measure kinematic properties. Continued observations of SN 2021aefx and other SNe Ia with JWST will be transformative to the study of SN Ia composition, ionization structure, density, and temperature, and will provide important constraints on SN Ia progenitor and explosion models.

Published

2023

5. SN 2020bio: A double-peaked, H-poor Type IIb supernova with evidence of circumstellar interaction

Author

National Aeronautics and Space Administration (US), European Research Council, European Commission, Agenzia Spaziale Italiana, Israel Science Foundation, Council for Higher Education (Israel), United States-Israel Binational Science Foundation, Pellegrini, Craig, Hiramatsu, Daichi, Arcavi, Iair, Howell, D. Andrew, Bostroem, K. Azalee, Brown, Peter J., Burke, Jamison, Elias-Rosa, Nancy, Itagaki, K., Kaneda, H., McCully, Curtis, Modjaz, Maryam, Padilla González, E., Pritchard, Joshua, Yesmin, N., National Aeronautics and Space Administration (US), European Research Council, European Commission, Agenzia Spaziale Italiana, Israel Science Foundation, Council for Higher Education (Israel), United States-Israel Binational Science Foundation, Pellegrini, Craig, Hiramatsu, Daichi, Arcavi, Iair, Howell, D. Andrew, Bostroem, K. Azalee, Brown, Peter J., Burke, Jamison, Elias-Rosa, Nancy, Itagaki, K., Kaneda, H., McCully, Curtis, Modjaz, Maryam, Padilla González, E., Pritchard, Joshua, and Yesmin, N.

Abstract

We present photometric and spectroscopic observations of SN 2020bio, a double-peaked Type IIb supernova (SN) discovered within a day of explosion, primarily obtained by Las Cumbres Observatory and Swift. SN 2020bio displays a rapid and long-lasting initial decline throughout the first week of its light curve, similarly to other well-studied Type IIb SNe. This early-time emission is thought to originate from the cooling of the extended outer hydrogen-rich (H-rich) envelope of the progenitor star that is shock heated by the SN explosion. We compare SN 2020bio to a sample of other double-peaked Type IIb SNe in order to investigate its progenitor properties. Analytical model fits to the early-time emission give progenitor radius (≈100–1500 R⊙) and H-rich envelope mass (≈0.01–0.5 M⊙) estimates that are consistent with other Type IIb SNe. However, SN 2020bio displays several peculiarities, including (1) weak H spectral features indicating a greater amount of mass loss than other Type IIb progenitors; (2) an underluminous secondary light-curve peak that implies a small amount of synthesized 56Ni (MNi ≈0.02 M⊙); and (3) low-luminosity nebular [O i] and interaction-powered nebular features. These observations are more consistent with a lower-mass progenitor (MZAMS ≈ 12 M⊙) that was stripped of most of its H-rich envelope before exploding. This study adds to the growing diversity in the observed properties of Type IIb SNe and their progenitors.

Published

2023

6. SN 2022acko: The first early far-ultraviolet spectra of a Type IIP supernova

Author

Tempus Public Foundation, National Science Foundation (US), National Aeronautics and Space Administration (US), Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Ciencia e Innovación (España), European Commission, European Research Council, Consejo Superior de Investigaciones Científicas (España), Bostroem, K. Azalee, Galbany, Lluís, Müller-Bravo, Tomás E., Tempus Public Foundation, National Science Foundation (US), National Aeronautics and Space Administration (US), Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Ciencia e Innovación (España), European Commission, European Research Council, Consejo Superior de Investigaciones Científicas (España), Bostroem, K. Azalee, Galbany, Lluís, and Müller-Bravo, Tomás E.

Abstract

We present five far- and near-ultraviolet spectra of the Type II plateau supernova, SN 2022acko, obtained 5, 6, 7, 19, and 21 days after explosion, all observed with the Hubble Space Telescope/Space Telescope Imaging Spectrograph. The first three epochs are earlier than any Type II plateau supernova has been observed in the far-ultraviolet revealing unprecedented characteristics. These three spectra are dominated by strong lines, primarily from metals, which contrasts with the featureless early optical spectra. The flux decreases over the initial time series as the ejecta cool and line blanketing takes effect. We model this unique data set with the non–local thermodynamic equilibrium radiation transport code CMFGEN, finding a good match to the explosion of a low-mass red supergiant with energy Ekin = 6 × 1050 erg. With these models we identify, for the first time, the ions that dominate the early ultraviolet spectra. We present optical photometry and spectroscopy, showing that SN 2022acko has a peak absolute magnitude of V = − 15.4 mag and plateau length of ∼115 days. The spectra closely resemble those of SN 2005cs and SN 2012A. Using the combined optical and ultraviolet spectra, we report the fraction of flux as a function of bluest wavelength on days 5, 7, and 19. We create a spectral time-series of Type II supernovae in the ultraviolet, demonstrating the rapid decline of flux over the first few weeks of evolution. Future observations of Type II supernovae are required to map out the landscape of exploding red supergiants, with and without circumstellar material, which is best revealed in high-quality ultraviolet spectra.

Published

2023

7. A Comprehensive Optical Search for Pre-explosion Outbursts from the Quiescent Progenitor of SN 2023ixf.

Author

Dong, Yize, Sand, David J., Valenti, Stefano, Bostroem, K. Azalee, Andrews, Jennifer E., Hosseinzadeh, Griffin, Hoang, Emily, Janzen, Daryl, Jencson, Jacob E., Lundquist, Michael, Meza Retamal, Nicolas E., Pearson, Jeniveve, Shrestha, Manisha, Haislip, Joshua, Kouprianov, Vladimir, and Reichart, Daniel E.

Subjects

TYPE II supernovae, LIGHT curves, SUPERGIANT stars, TYPE I supernovae, CIRCUMSTELLAR matter

Abstract

We perform a comprehensive search for optical precursor emission at the position of SN 2023ixf using data from the DLT40, ZTF, and ATLAS surveys. By comparing the current data set with precursor outburst hydrodynamical model light curves, we find that the probability of a significant outburst within 5 yr of explosion is low, and the circumstellar material (CSM) ejected during any possible precursor outburst is likely smaller than ∼0.015 M ⊙. By comparing to a set of toy models, we find that, if there was a precursor outburst, the duration must have been shorter than ∼100 days for a typical brightness of M r ≃ −9 mag or shorter than 200 days for M r ≃ −8 mag; brighter, longer outbursts would have been discovered. Precursor activity like that observed in the normal Type II SN 2020tlf (M r ≃ −11.5) can be excluded in SN 2023ixf. If the dense CSM inferred by early flash spectroscopy and other studies is related to one or more precursor outbursts, then our observations indicate that any such outburst would have to be faint and only last for days to months, or it occurred more than 5 yr prior to the explosion. Alternatively, any dense, confined CSM may not be due to eruptive mass loss from a single red supergiant progenitor. Taken together, the results of SN 2023ixf and SN 2020tlf indicate that there may be more than one physical mechanism behind the dense CSM inferred around some normal Type II supernovae. [ABSTRACT FROM AUTHOR]

Published

2023

8. SN 2022acko: The First Early Far-ultraviolet Spectra of a Type IIP Supernova.

Author

Bostroem, K. Azalee, Dessart, Luc, Hillier, D. John, Lundquist, Michael, Andrews, Jennifer E., Sand, David J., Dong, Yize, Valenti, Stefano, Haislip, Joshua, Hoang, Emily T., Hosseinzadeh, Griffin, Janzen, Daryl, Jencson, Jacob E., Jha, Saurabh W., Kouprianov, Vladimir, Pearson, Jeniveve, Meza Retamal, Nicolas E., Reichart, Daniel E., Shrestha, Manisha, and Ashall, Christopher

Published

2023

9. Near-infrared and Optical Observations of Type Ic SN 2021krf: Luminous Late-time Emission and Dust Formation.

Author

Ravi, Aravind P., Rho, Jeonghee, Park, Sangwook, Park, Seong Hyun, Yoon, Sung-Chul, Geballe, T. R., Vinkó, Jozsef, Tinyanont, Samaporn, Bostroem, K. Azalee, Burke, Jamison, Hiramatsu, Daichi, Howell, D. Andrew, McCully, Curtis, Newsome, Megan, Gonzalez, Estefania Padilla, Pellegrino, Craig, Cartier, Regis, Pritchard, Tyler, Andersen, Morten, and Blinnikov, Sergey

Subjects

MAGNETARS, TYPE I supernovae, RADIOACTIVE decay, DUST, LIGHT curves, STELLAR mass, ACTINIC flux

Abstract

We present near-infrared (NIR) and optical observations of the Type Ic supernova (SN Ic) SN 2021krf obtained between days 13 and 259 at several ground-based telescopes. The NIR spectrum at day 68 exhibits a rising K -band continuum flux density longward of ∼2.0 μ m, and a late-time optical spectrum at day 259 shows strong [O i ] 6300 and 6364 Å emission-line asymmetry, both indicating the presence of dust, likely formed in the SN ejecta. We estimate a carbon-grain dust mass of ∼2 × 10−5 M ⊙ and a dust temperature of ∼900–1200 K associated with this rising continuum and suggest the dust has formed in SN ejecta. Utilizing the one-dimensional multigroup radiation-hydrodynamics code STELLA, we present two degenerate progenitor solutions for SN 2021krf, characterized by C–O star masses of 3.93 and 5.74 M ⊙, but with the same best-fit 56Ni mass of 0.11 M ⊙ for early times (0–70 days). At late times (70–300 days), optical light curves of SN 2021krf decline substantially more slowly than those expected from 56Co radioactive decay. Lack of H and He lines in the late-time SN spectrum suggests the absence of significant interaction of the ejecta with the circumstellar medium. We reproduce the entire bolometric light curve with a combination of radioactive decay and an additional powering source in the form of a central engine of a millisecond pulsar with a magnetic field smaller than that of a typical magnetar. [ABSTRACT FROM AUTHOR]

Published

2023

10. What Does the Geometry of the H β BLR Depend On?

Author

Villafaña, Lizvette, Williams, Peter R., Treu, Tommaso, Brewer, Brendon J., Barth, Aaron J., U, Vivian, Bennert, Vardha N., Guo, Hengxiao, Bentz, Misty C., Canalizo, Gabriela, Filippenko, Alexei V., Gates, Elinor, Joner, Michael D., Malkan, Matthew A., Woo, Jong-Hak, Abolfathi, Bela, Bohn, Thomas, Bostroem, K. Azalee, Brandel, Andrew, and Brink, Thomas G.

Subjects

VIRIAL coefficients, ACTIVE galactic nuclei, SUPERMASSIVE black holes

Abstract

We combine our dynamical modeling black-hole mass measurements from the Lick AGN Monitoring Project 2016 sample with measured cross-correlation time lags and line widths to recover individual scale factors, f, used in traditional reverberation-mapping analyses. We extend our sample by including prior results from Code for AGN Reverberation and Modeling of Emission Lines (caramel) studies that have utilized our methods. Aiming to improve the precision of black-hole mass estimates, as well as uncover any regularities in the behavior of the broad-line region (BLR), we search for correlations between f and other AGN/BLR parameters. We find (i) evidence for a correlation between the virial coefficient log 10 (f mean , σ) and black-hole mass, (ii) marginal evidence for a similar correlation between log 10 (f rms , σ) and black-hole mass, (iii) marginal evidence for an anticorrelation of BLR disk thickness with log 10 (f mean , FWHM) and log 10 (f rms , FWHM) , and (iv) marginal evidence for an anticorrelation of inclination angle with log 10 (f mean , FWHM) , log 10 (f rms , σ) , and log 10 (f mean , σ). Last, we find marginal evidence for a correlation between line-profile shape, when using the root-mean-square spectrum, log 10 (FWHM / σ) rms , and the virial coefficient, log 10 (f rms , σ) , and investigate how BLR properties might be related to line-profile shape using caramel models. [ABSTRACT FROM AUTHOR]

Published

2023

11. Limit on Supernova Emission in the Brightest Gamma-Ray Burst, GRB 221009A.

Author

Shrestha, Manisha, Sand, David J., Alexander, Kate D., Bostroem, K. Azalee, Hosseinzadeh, Griffin, Pearson, Jeniveve, Aghakhanloo, Mojgan, Vinkó, József, Andrews, Jennifer E., Jencson, Jacob E., Lundquist, M. J., Wyatt, Samuel, Howell, D. Andrew, McCully, Curtis, Gonzalez, Estefania Padilla, Pellegrino, Craig, Terreran, Giacomo, Hiramatsu, Daichi, Newsome, Megan, and Farah, Joseph

Published

2023

12. High-Cadence TESS and Ground-based Data of SN 2019esa, the Less Energetic Sibling of SN 2006gy.

Author

Andrews, Jennifer E., Pearson, Jeniveve, Lundquist, M. J., Sand, David J., Jencson, Jacob E., Bostroem, K. Azalee, Hosseinzadeh, Griffin, Valenti, S., Smith, Nathan, Amaro, R. C., Dong, Yize, Janzen, Daryl, Meza, Nicolás, Wyatt, Samuel, Burke, Jamison, Hiramatsu, Daichi, Howell, D. Andrew, McCully, Curtis, and Pellegrino, Craig

Subjects

VARIABLE stars, SUPERGIANT stars, EARLY stars, LIGHT curves, OPTICAL spectra, CIRCUMSTELLAR matter, SUPERNOVAE

Abstract

We present photometric and spectroscopic observations of the nearby (D ≈ 28 Mpc) interacting supernova (SN) 2019esa, discovered within hours of explosion and serendipitously observed by the Transiting Exoplanet Survey Satellite (TESS). Early, high-cadence light curves from both TESS and the DLT40 survey tightly constrain the time of explosion, and show a 30 day rise to maximum light followed by a near-constant linear decline in luminosity. Optical spectroscopy over the first 40 days revealed a reddened object with narrow Balmer emission lines seen in Type IIn SNe. The slow rise to maximum in the optical light curve combined with the lack of broad H α emission suggest the presence of very optically thick and close circumstellar material (CSM) that quickly decelerated the SN ejecta. This CSM was likely created from a massive star progenitor with an M ̇ ∼ 0.2 M ☉ yrâˆ'1 lost in a previous eruptive episode 3â€"4 yr before eruption, similar to giant eruptions of luminous blue variable stars. At late times, strong intermediate-width Ca ii, Fe i, and Fe ii lines are seen in the optical spectra, identical to those seen in the superluminous interacting SN 2006gy. The strong CSM interaction masks the underlying explosion mechanism in SN 2019esa, but the combination of the luminosity, strength of the H α lines, and mass-loss rate of the progenitor seem to be inconsistent with a Type Ia CSM model and instead point to a core-collapse origin. [ABSTRACT FROM AUTHOR]

Published

2022

13. Weak Mass Loss from the Red Supergiant Progenitor of the Type II SN 2021yja.

Author

Hosseinzadeh, Griffin, Kilpatrick, Charles D., Dong, Yize, č'Ł, 一泽, Sand, David J., Andrews, Jennifer E., Bostroem, K. Azalee, Janzen, Daryl, Jencson, Jacob E., Lundquist, Michael, Meza Retamal, Nicolas E., Pearson, Jeniveve, Valenti, Stefano, Wyatt, Samuel, Burke, Jamison, Hiramatsu, Daichi, Howell, D. Andrew, McCully, Curtis, Newsome, Megan, and Gonzalez, Estefania Padilla

Subjects

TYPE II supernovae, CIRCUMSTELLAR matter, SUPERGIANT stars, LIGHT curves, SPACE telescopes

Abstract

We present high-cadence optical, ultraviolet (UV), and near-infrared data of the nearby (D ≈ 23 Mpc) Type II supernova (SN) 2021yja. Many Type II SNe show signs of interaction with circumstellar material (CSM) during the first few days after explosion, implying that their red supergiant (RSG) progenitors experience episodic or eruptive mass loss. However, because it is difficult to discover SNe early, the diversity of CSM configurations in RSGs has not been fully mapped. SN 2021yja, first detected within ≈ 5.4 hours of explosion, shows some signatures of CSM interaction (high UV luminosity and radio and x-ray emission) but without the narrow emission lines or early light-curve peak that can accompany CSM. Here we analyze the densely sampled early light curve and spectral series of this nearby SN to infer the properties of its progenitor and CSM. We find that the most likely progenitor was an RSG with an extended envelope, encompassed by low-density CSM. We also present archival Hubble Space Telescope imaging of the host galaxy of SN 2021yja, which allows us to place a stringent upper limit of ≲ 9 M ☉ on the progenitor mass. However, this is in tension with some aspects of the SN evolution, which point to a more massive progenitor. Our analysis highlights the need to consider progenitor structure when making inferences about CSM properties, and that a comprehensive view of CSM tracers should be made to give a fuller view of the last years of RSG evolution. [ABSTRACT FROM AUTHOR]

Published

2022

14. SN 2016dsg: A Thermonuclear Explosion Involving a Thick Helium Shell.

Author

Dong, Yize, č'Ł, 一泽, Valenti, Stefano, Polin, Abigail, Boyle, Aoife, Flörs, Andreas, Vogl, Christian, Kerzendorf, Wolfgang E., Sand, David J., Jha, Saurabh W., Wyrzykowski, Łukasz, Bostroem, K. Azalee, Pearson, Jeniveve, McCully, Curtis, Andrews, Jennifer E., Benetti, Stefano, Blondin, StĂ©phane, Galbany, L., Gromadzki, Mariusz, and Hosseinzadeh, Griffin

Subjects

TYPE I supernovae, WHITE dwarf stars, STELLAR populations, EXPLOSIONS, HELIUM

Abstract

A thermonuclear explosion triggered by a He-shell detonation on a carbonâ€"oxygen white-dwarf core has been predicted to have strong UV line blanketing at early times due to the iron-group elements produced during He-shell burning. We present the photometric and spectroscopic observations of SN 2016dsg, a subluminous peculiar Type I supernova consistent with a thermonuclear explosion involving a thick He shell. With a redshift of 0.04, the i -band peak absolute magnitude is derived to be around âˆ'17.5. The object is located far away from its host, an early-type galaxy, suggesting it originated from an old stellar population. The spectra collected after the peak are unusually red, show strong UV line blanketing and weak O i λ 7773 absorption lines, and do not evolve significantly over 30 days. An absorption line around 9700â€"10500 Ă... is detected in the near-infrared spectrum and is likely from the unburnt He in the ejecta. The spectroscopic evolution is consistent with the thermonuclear explosion models for a sub-Chandrasekhar-mass white dwarf with a thick He shell, while the photometric evolution is not well described by existing models. [ABSTRACT FROM AUTHOR]

Published

2022

15. The Candidate Progenitor Companion Star of the Type Ib/c SN 2013ge.

Author

Fox, Ori D., Van Dyk, Schuyler D., Williams, Benjamin F., Drout, Maria, Zapartas, Emmanouil, Smith, Nathan, Milisavljevic, Dan, Andrews, Jennifer E., Bostroem, K. Azalee, Filippenko, Alexei V., Gomez, Sebastian, Kelly, Patrick L., de Mink, S. E., Pierel, Justin, Rest, Armin, Ryder, Stuart, Sravan, Niharika, Strolger, Lou, Wang, Qinan, and Weil, Kathryn E.

Published

2022

16. The Blue Supergiant Progenitor of the Supernova Imposter AT 2019krl.

Author

Andrews, Jennifer E., Jencson, Jacob E., Van Dyk, Schuyler D., Smith, Nathan, Neustadt, Jack M. M., Sand, David J., Kreckel, K., Kochanek, C. S., Valenti, S., Strader, Jay, Bersten, M. C., Blanc, Guillermo A., Bostroem, K. Azalee, Brink, Thomas G., Emsellem, Eric, Filippenko, Alexei V., Folatelli, Gastón, Kasliwal, Mansi M., Masci, Frank J., and McElroy, Rebecca

Subjects

SPACE telescopes, STELLAR spectra, SUPERNOVAE, LIGHT curves, SUPERGIANT stars, TELESCOPES

Abstract

Extensive archival Hubble Space Telescope, Spitzer Space Telescope, and Large Binocular Telescope imaging of the recent intermediate-luminosity transient, AT 2019krl in M74, reveal a bright optical and mid-infrared progenitor star. While the optical peak of the event was missed, a peak was detected in the infrared with an absolute magnitude of M4.5 μm = −18.4 mag, leading us to infer a visual-wavelength peak absolute magnitude of −13.5 to −14.5. The pre-discovery light curve indicated no outbursts over the previous 16 yr. The colors, magnitudes, and inferred temperatures of the progenitor best match a 13–14 M⊙ yellow or blue supergiant (BSG) if only foreground extinction is taken into account, or a hotter and more massive star if any additional local extinction is included. A pre-eruption spectrum of the star reveals strong Hα and [N ii ] emission with wings extending to ±2000 km s−1. The post-eruption spectrum is fairly flat and featureless with only Hα, Na i D, [Ca ii ], and the Ca ii triplet in emission. As in many previous intermediate-luminosity transients, AT 2019krl shows remarkable observational similarities to luminous blue variable (LBV) giant eruptions, SN 2008S-like events, and massive-star mergers. However, the information about the pre-eruption star favors either a relatively unobscured BSG or a more extinguished LBV with M > 20 M⊙ likely viewed pole-on. [ABSTRACT FROM AUTHOR]

Published

2021

17. The Exotic Type Ic Broad-lined Supernova SN 2018gep: Blurring the Line between Supernovae and Fast Optical Transients.

Author

Pritchard, T. A., Bensch, Katarzyna, Modjaz, Maryam, Williamson, Marc, Thöne, Christina C., Vinkó, J., Bianco, Federica B., Bostroem, K. Azalee, Burke, Jamison, García-Benito, Rubén, Galbany, L., Hiramatsu, Daichi, Howell, D. Andrew, Izzo, Luca, Kann, D. Alexander, McCully, Curtis, Pellegrino, Craig, de Ugarte Postigo, Antonio, Valenti, Stefano, and Wang, Xiaofeng

Subjects

TYPE I supernovae, SUPERNOVAE, GAMMA ray bursts

Abstract

In the last decade a number of rapidly evolving transients have been discovered that are not easily explained by traditional supernova models. We present optical and UV data on one such object, SN 2018gep, that displayed a fast rise with a mostly featureless blue continuum around peak, and evolved to develop broad features typical of an SN Ic-bl while retaining significant amounts of blue flux throughout its observations. This blue excess is most evident in its near-UV flux, which is over 4 mag brighter than other stripped-envelope supernovae, and is still visible in optical g–r colors. Its fast rise time of trise,V = 5.6 ± 0.5 days puts it squarely in the emerging class of Fast Evolving Luminous Transients, or Fast Blue Optical Transients. With a peak absolute magnitude of Mv = −19.53 ± 0.23 mag it is on the extreme end of both the rise time and peak magnitude distribution for SNe Ic-bl. These observations are consistent with a simple SN Ic-bl model that has an additional form of energy injection at early times that drives the observed rapid, blue rise. We show that SN 2018gep and the literature SN iPTF16asu have similar photometric and spectroscopic properties and that they overall share many similarities with both SNe Ic-bl and Fast Evolving Transients. Based on our SN 2018gep host galaxy data we derive a number of properties, and we show that the derived host galaxy properties for both SN 2018gep and iPTF16asu are consistent with the SNe Ic-bl and gamma-ray burst/supernova sample while being on the extreme edge of the observed Fast Evolving Transient sample. [ABSTRACT FROM AUTHOR]

Published

2021

18. pwv_kpno: A Python Package for Modeling the Atmospheric Transmission Function Due to Precipitable Water Vapor

Author

Perrefort, Daniel, primary, Wood-Vasey, W. M., additional, Bostroem, K. Azalee, additional, Gilmore, Kirk, additional, Joyce, Richard, additional, Matheson, Tom, additional, and Corson, Charles, additional

Published

2018

19. UNCOVERING THE PUTATIVE B-STAR BINARY COMPANION OF THE SN 1993J PROGENITOR.

Author

Fox, Ori D., Bostroem, K. Azalee, Dyk, Schuyler D. Van, Filippenko, Alexei V., Fransson, Claes, Matheson, Thomas, Cenko, S. Bradley, Chandra, Poonam, Dwarkadas, Vikram, Li, Weidong, Parker, Alex H., and Smith, Nathan

Subjects

*SUPERNOVAE, *BINARY stars, *ULTRAVIOLET radiation, *ABSORPTION

Abstract

The Type IIb supernova (SN) 1993J is one of only a few stripped-envelope SNe with a progenitor star identified in pre-explosion images. SN IIb models typically invoke H envelope stripping by mass transfer in a binary system. For the case of SN 1993J, the models suggest that the companion grew to 22 M☼ and became a source of ultraviolet (UV) excess. Located in M81, at a distance of only 3.6 Mpc, SN 1993J offers one of the best opportunities to detect the putative companion and test the progenitor model. Previously published near-UV spectra in 2004 showed evidence for absorption lines consistent with a hot (B2 Ia) star, but the field was crowded and dominated by flux from the SN. Here we present Hubble Space Telescope Cosmic Origins Spectrograph and Wide-Field Camera 3 observations of SN 1993J from 2012, at which point the flux from the SN had faded sufficiently to potentially measure the UV continuum properties from the putative companion. The resulting UV spectrum is consistent with contributions from both a hot B star and the SN, although we cannot rule out line-of-sight coincidences. [ABSTRACT FROM AUTHOR]

Published

2014