Your search keyword '"Stritzinger, M"' showing total 165 results

1. Newly formed dust within the circumstellar environment of SN Ia-CSM 2018evt

Author

Wang王, Lingzhi 灵芝, Hu, Maokai, Wang, Lifan, Yang 杨, Yi 轶, Yang, Jiawen, Gomez, Haley, Chen, Sijie, Hu, Lei, Chen, Ting-Wan, Mo, Jun, Wang, Xiaofeng, Baade, Dietrich, Hoeflich, Peter, Wheeler, J. Craig, Pignata, Giuliano, Burke, Jamison, Hiramatsu, Daichi, Howell, D. Andrew, McCully, Curtis, Pellegrino, Craig, Galbany, Lluís, Hsiao, Eric Y., Sand, David J., Zhang, Jujia, Uddin, Syed A., Anderson, J. P., Ashall, Chris, Cheng, Cheng, Gromadzki, Mariusz, Inserra, Cosimo, Lin, Han, Morrell, N., Morales-Garoffolo, Antonia, Müller-Bravo, T. E., Nicholl, Matt, Gonzalez, Estefania Padilla, Phillips, M. M., Pineda-García, J., Sai, Hanna, Smith, Mathew, Shahbandeh, M., Srivastav, Shubham, Stritzinger, M. D., Yang, Sheng, Young, D. R., Yu, Lixin, and Zhang, Xinghan

Published

2024

2. Carnegie Supernova Project-II : The Near-infrared Spectroscopy Program

Author

Phillips, M. M., Marion, G. H., Kirshner, R. P., Morrell, N., Sand, D. J., Burns, C. R., Contreras, C., Hoeflich, P., Stritzinger, M. D., Valenti, S., Anderson, J. P., Ashall, C., Baltay1, C., Baron, E., Banerjee, D. P. K., Davis, S., Diamond, T. R., Folatelli, G., Freedman, Wendy L., Förster, F., Galbany, L., Gall, C., González-Gaitán, S., Goobar, A., Hamuy, M., Holmbo, S., Kasliwal, M. M., Krisciunas, K., Kumar, S., Lidman, C., Lu, J., Nugent, P. E., Perlmutter, S., Persson, S. E., Piro, A. L., Rabinowitz, D., Roth, M., Ryder, S. D., Schmidt, B. P., Shahbandeh, M., Suntzeff, N. B., Taddia, F., Uddin, S., and Wang, L.

Published

2019

3. Discovery and follow-up of ASASSN-23bd (AT 2023clx): the lowest redshift and luminosity optically selected tidal disruption event.

Author

Hoogendam, W B, Hinkle, J T, Shappee, B J, Auchettl, K, Kochanek, C S, Stanek, K Z, Maksym, W P, Tucker, M A, Huber, M E, Morrell, N, Burns, C R, Hey, D, Holoien, T W -S, Prieto, J L, Stritzinger, M, Do, A, Polin, A, Ashall, C, Brown, P J, and DerKacy, J M

Subjects

LUMINOSITY, SUPERMASSIVE black holes, ACTIVE galactic nuclei, LIGHT curves, BLACK holes

Abstract

We report the All-Sky Automated Survey for SuperNovae discovery of the tidal disruption event (TDE) ASASSN-23bd (AT 2023clx) in NGC 3799, a LINER galaxy with no evidence of strong active galactic nucleus (AGN) activity over the past decade. With a redshift of z  = 0.01107 and a peak ultraviolet (UV)/optical luminosity of (5.4 ± 0.4) × 1042 erg s−1, ASASSN-23bd is the lowest-redshift and least-luminous TDE discovered to date. Spectroscopically, ASASSN-23bd shows H α and He  i emission throughout its spectral time series, there are no coronal lines in its near-infrared spectrum, and the UV spectrum shows nitrogen lines without the strong carbon and magnesium lines typically seen for AGN. Fits to the rising ASAS-SN light curve show that ASASSN-23bd started to brighten on MJD 59988 |$^{+1}_{-1}$|⁠ , ∼9 d before discovery, with a nearly linear rise in flux, peaking in the g band on MJD |$60 \, 000^{+3}_{-3}$|⁠. Scaling relations and TDE light curve modelling find a black hole mass of ∼106 M⊙, which is on the lower end of supermassive black hole masses. ASASSN-23bd is a dim X-ray source, with an upper limit of |$L_{0.3-10\, \mathrm{keV}} \lt 1.0\times 10^{40}$| erg s−1 from stacking all Swift observations prior to MJD 60061, but with soft (∼0.1 keV) thermal emission with a luminosity of |$L_{0.3-2 \, \mathrm{keV}}\sim 4\times 10^{39}$| erg s−1 in XMM-Newton observations on MJD 60095. The rapid (t < 15 d) light curve rise, low UV/optical luminosity, and a luminosity decline over 40 d of Δ L 40 ≈ −0.7 dex make ASASSN-23bd one of the dimmest TDEs to date and a member of the growing 'Low Luminosity and Fast' class of TDEs. [ABSTRACT FROM AUTHOR]

Published

2024

4. Optical Spectroscopy of Type Ia Supernovae by the Carnegie Supernova Projects I and II.

Author

Morrell, N., Phillips, M. M., Folatelli, G., Stritzinger, M. D., Hamuy, M., Suntzeff, N. B., Hsiao, E. Y., Taddia, F., Burns, C. R., Hoeflich, P., Ashall, C., Contreras, C., Galbany, L., Lu, J., Piro, A. L., Anais, J., Baron, E., Burrow, A., Busta, L., and Campillay, A.

Subjects

TYPE I supernovae, OPTICAL spectroscopy, SUPERNOVAE, OPTICAL spectra

Abstract

We present the second and final release of optical spectroscopy of Type Ia supernovae (SNe Ia) obtained during the first and second phases of the Carnegie Supernova Project (CSP-I and CSP-II). The newly released data consist of 148 spectra of 30 SNe Ia observed in the course of CSP-I and 234 spectra of 127 SNe Ia obtained during CSP-II. We also present 216 optical spectra of 46 historical SNe Ia, including 53 spectra of 30 SNe Ia observed by the Calán/Tololo Supernova Survey. We combine these observations with previously published CSP data and publicly available spectra to compile a large sample of measurements of spectroscopic parameters at maximum light, consisting of pseudo-equivalent widths and expansion velocities of selected features for 232 CSP and historical SNe Ia (including more than 1000 spectra). Finally, we review some of the strongest correlations between spectroscopic and photometric properties of SNe Ia. Specifically, we define two samples: one consisting of SNe Ia discovered by targeted searches (most of them CSP-I objects) and the other composed of SNe Ia discovered by untargeted searches, which includes most of the CSP-II objects. The analyzed correlations are similar for both samples. We find a larger incidence of SNe Ia belonging to the cool and broad-line Branch subtypes among the events discovered by targeted searches, shallow-silicon SNe Ia are present with similar frequencies in both samples, while core normal SNe Ia are more frequent in untargeted searches. [ABSTRACT FROM AUTHOR]

Published

2024

5. Observations of type Ia supernova SN 2020nlb up to 600 days after explosion, and the distance to M85.

Author

Williams, S. C., Kotak, R., Lundqvist, P., Mattila, S., Mazzali, P. A., Pastorello, A., Reguitti, A., Stritzinger, M. D., Fiore, A., Hook, I. M., Moran, S., and Salmaso, I.

Subjects

VIRGO Cluster, LIGHT filters, TYPE I supernovae, OPTICAL spectra

Abstract

The type Ia supernova (SN Ia) SN 2020nlb was discovered in the Virgo Cluster galaxy M85 shortly after explosion. Here we present observations that include one of the earliest high-quality spectra and some of the earliest multi-colour photometry of a SN Ia to date. We calculated that SN 2020nlb faded 1.28 ± 0.02 mag in the B band in the first 15 d after maximum brightness. We independently fitted a power-law rise to the early flux in each filter, and found that the optical filters all give a consistent first light date estimate. In contrast to the earliest spectra of SN 2011fe, those of SN 2020nlb show strong absorption features from singly ionised metals, including Fe II and Ti II, indicating lower-excitation ejecta at the earliest times. These earliest spectra show some similarities to maximum-light spectra of 1991bg-like SNe Ia. The spectra of SN 2020nlb then evolve to become hotter and more similar to SN 2011fe as it brightens towards peak. We also obtained a sequence of nebular spectra that extend up to 594 days after maximum light, a phase out to which SNe Ia are rarely followed. The [Fe III]/[Fe II] flux ratio (as measured from emission lines in the optical spectra) begins to fall around 300 days after peak; by the +594 d spectrum, the ionisation balance of the emitting region of the ejecta has shifted dramatically, with [Fe III] by then being completely absent. The final spectrum is almost identical to SN 2011fe at a similar epoch. Comparing our data to other SN Ia nebular spectra, there is a possible trend where SNe that were more luminous at peak tend to have a higher [Fe III]/[Fe II] flux ratio in the nebular phase, but there is a notable outlier in SN 2003hv. Finally, using light-curve fitting on our data, we estimate the distance modulus for M85 to be μ0 = 30.99 ± 0.19 mag, corresponding to a distance of 15.8+1.4-1.3 Mpc. [ABSTRACT FROM AUTHOR]

Published

2024

6. The lowest-metallicity type II supernova from the highest-mass red supergiant progenitor

Author

Anderson, J. P., Dessart, L., Gutiérrez, C. P., Krühler, T., Galbany, L., Jerkstrand, A., Smartt, S. J., Contreras, C., Morrell, N., Phillips, M. M., Stritzinger, M. D., Hsiao, E. Y., González-Gaitán, S., Agliozzo, C., Castellón, S., Chambers, K. C., Chen, T. -W., Flewelling, H., Gonzalez, C., Hosseinzadeh, G., Huber, M., Fraser, M., Inserra, C., Kankare, E., Mattila, S., Magnier, E., Maguire, K., Lowe, T. B., Sollerman, J., Sullivan, M., Young, D. R., and Valenti, S.

Published

2018

7. No plateau observed in late-time near-infrared observations of the underluminous Type Ia supernova 2021qvv

Author

Graur, O., Gonzalez, E. Padilla, Burke, J., Deckers, M., Jha, S. W., Galbany, L., Karamenhmetoglu, E., Stritzinger, M. D., Maguire, K., Howell, D. A., Fisher, R., Fullard, A. G., Handberg, R., Hosseinzadeh, G., Kerzendorf, W. E., McCully, C., Newsome, M., Rest, A., Riess, A. G., Seitenzahl, I. R., Shara, M. M., Shen, K. J., Terreran, G., and Zurek, D. R.

Subjects

High Energy Astrophysical Phenomena (astro-ph.HE), Cosmology and Nongalactic Astrophysics (astro-ph.CO), FOS: Physical sciences, Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Near-infrared (NIR) observations of normal Type Ia supernovae (SNe Ia) obtained between 150 to 500 d past maximum light reveal the existence of an extended plateau. Here, we present observations of the underluminous, 1991bg-like SN 2021qvv. Early, ground-based optical and NIR observations show that SN 2021qvv is similar to SN 2006mr, making it one of the dimmest, fastest-evolving 1991bg-like SNe to date. Late-time (170-250 d) Hubble Space Telescope observations of SN 2021qvv reveal no sign of a plateau. An extrapolation of these observations backwards to earlier-phase NIR observations of SN 2006mr suggests the complete absence of a NIR plateau, at least out to 250 d. This absence may be due to the lower temperatures of the ejecta of 1991bg-like SNe, relative to normal SNe Ia, which might preclude their becoming fluorescent and shifting ultraviolet light into the NIR. This suggestion can be tested by acquiring NIR imaging of a sample of 1991bg-like SNe that covers the entire range from slowly-evolving to fast-evolving events ($0.2 \lesssim s_\mathrm{BV} \lesssim 0.6$). A detection of the NIR plateau in slower-evolving, hotter 1991bg-like SNe would provide further evidence that these SNe exist along a continuum with normal SNe Ia. Theoretical progenitor and explosion scenarios would then have to match the observed properties of both SN Ia subtypes., 12 pages, 8 figures, submitted to MNRAS. Comments welcome

Published

2023

8. No plateau observed in late-time near-infrared observations of the underluminous Type Ia supernova 2021qvv.

Author

Graur, O, Padilla Gonzalez, E, Burke, J, Deckers, M, Jha, S W, Galbany, L, Karamehmetoglu, E, Stritzinger, M D, Maguire, K, Howell, D A, Fisher, R, Fullard, A G, Handberg, R, Hiramatsu, D, Hosseinzadeh, G, Kerzendorf, W E, McCully, C, Newsome, M, Pellegrino, C, and Rest, A

Subjects

TYPE I supernovae, SPACE telescopes, ULTRAVIOLET radiation

Abstract

Near-infrared (NIR) observations of normal Type Ia supernovae (SNe Ia) obtained between 150 and 500 d past maximum light reveal the existence of an extended plateau. Here, we present observations of the underluminous, 1991bg-like SN 2021qvv. Early, ground-based optical and NIR observations show that SN 2021qvv is similar to SN 2006mr, making it one of the dimmest, fastest evolving 1991bg-like SNe to date. Late-time (170–250 d) Hubble Space Telescope observations of SN 2021qvv reveal no sign of a plateau. An extrapolation of these observations backwards to earlier-phase NIR observations of SN 2006mr suggests the complete absence of an NIR plateau, at least out to 250 d. This absence may be due to a higher ionization state of the ejecta, as predicted by certain sub-Chandrasekhar-mass detonation models, or to the lower temperatures of the ejecta of 1991bg-like SNe, relative to normal SNe Ia, which might preclude their becoming fluorescent and shifting ultraviolet light into the NIR. This suggestion can be tested by acquiring NIR imaging of a sample of 1991bg-like SNe that covers the entire range from slowly evolving to fast-evolving events (0.2 ≲ s BV ≲ 0.6). A detection of the NIR plateau in slower evolving, hotter 1991bg-like SNe would provide further evidence that these SNe exist along a continuum with normal SNe Ia. Theoretical progenitor and explosion scenarios would then have to match the observed properties of both SN Ia subtypes. [ABSTRACT FROM AUTHOR]

Published

2023

9. The Bactrian? Broad-lined Type-Ic supernova SN 2022xxf with extraordinary two-humped light curves

Author

Kuncarayakti, H., Sollerman, J., Izzo, L., Maeda, K., Yang, S., Schulze, S., Angus, C. R., Aubert, M., Auchettl, K., Della Valle, M., Dessart, L., Hinds, K., Kankare, E., Kawabata, M., Lundqvist, P., Nakaoka, T., Perley, D., Raimundo, S. I., Strotjohann, N. L., Taguchi, K., Cai, Y. -Z., Charalampopoulos, P., Fang, Q., Fraser, M., Gutierrez, C. P., Imazawa, R., Kangas, T., Kawabata, K. S., Kotak, R., Kravtsov, T., Matilainen, K., Mattila, S., Moran, S., Murata, I., Salmaso, I., Anderson, J. P., Ashall, C., Bellm, E. C., Benetti, S., Chambers, K. C., Chen, T. -W., Coughlin, M., De Colle, F., Fremling, C., Galbany, L., Gal-Yam, A., Gromadzki, M., Groom, S. L., Hajela, A., Inserra, C., Kasliwal, M. M., Mahabal, A. A., Martin-Carrillo, A., Moore, T., Muller-Bravo, T. E., Nicholl, M., Ragosta, F., Riddle, R. L., Sharma, Y., Srivastav, S., Stritzinger, M. D., Wold, A., Young, D. R., Laboratoire de Physique de Clermont (LPC), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Université Clermont Auvergne (UCA), Institut d'Astrophysique de Paris (IAP), and Institut national des sciences de l'Univers (INSU - CNRS)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)

Subjects

High Energy Astrophysical Phenomena (astro-ph.HE), Astrophysics - Solar and Stellar Astrophysics, Astrophysics of Galaxies (astro-ph.GA), FOS: Physical sciences, Astrophysics - High Energy Astrophysical Phenomena, [PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph], Astrophysics - Astrophysics of Galaxies, Solar and Stellar Astrophysics (astro-ph.SR)

Abstract

We report on our study of SN 2022xxf during the first four months of its evolution. The light curves (LCs) display two humps at similar maximum brightness separated by 75d, unprecedented for a broad-lined Type Ic supernova (SN IcBL). SN~2022xxf is the most nearby SN IcBL to date (in NGC~3705, $z = 0.0037$, 20 Mpc). Optical and NIR photometry and spectroscopy are used to identify the energy source powering the LC. Nearly 50 epochs of high S/N-ratio spectroscopy were obtained within 130d, comprising an unparalleled dataset for a SN IcBL, and one of the best-sampled SN datasets to date. The global spectral appearance and evolution of SN~2022xxf points to typical SN Ic/IcBL, with broad features (up to $\sim14000$ km~s$^{-1}$) and a gradual transition from the photospheric to the nebular phase. However, narrow emission lines (corresponding to $\sim1000-2500$ km~s$^{-1}$) are present from the time of the second rise, suggesting slower-moving circumstellar material (CSM). These lines are subtle, but some are readily noticeable at late times such as in Mg~I $\lambda$5170 and [O~I] $\lambda$5577. Unusually, the near-infrared spectra show narrow line peaks, especially among features formed by ions of O and Mg. We infer the presence of CSM that is free of H and He. We propose that the radiative energy from the ejecta-CSM interaction is a plausible explanation for the second LC hump. This interaction scenario is supported by the color evolution, which progresses to the blue as the light curve evolves along the second hump, and the slow second rise and subsequent rapid LC drop. SN~2022xxf may be related to an emerging number of CSM-interacting SNe Ic, which show slow, peculiar LCs, blue colors, and subtle CSM interaction lines. The progenitor stars of these SNe likely experienced an episode of mass loss shortly prior to explosion consisting of H/He-free material., Comment: Submitted. SN~2022xxf is still bright ($\sim18$ mag), has good sky visibility in the next few months, and shows a flattening in the current LC. The community is urged to join the monitoring effort in all wavelengths in order to understand this extraordinary object and its pre-SN behavior

Published

2023

10. Photometric and spectroscopic analysis of the Type II SN 2020jfo with a short plateau

Author

Ailawadhi, B., Dastidar, R., Misra, K., Roy, R., Hiramatsu, D., Howell, D. A., Brink, T. G., Zheng, W., Galbany, L., Shahbandeh, M., Arcavi, I., Ashall, C., Bostroem, K. A., Burke, J., Chapman, T., Dimple, Filippenko, A. V., Gangopadhyay, A., Ghosh, A., Hoffman, A. M., Hosseinzadeh, G., Jennings, C., Jha, V. K., Kumar, A., Karamehmetoglu, E., McCully, C., McGinness, E., Müller-Bravo, T. E., Murakami, Y. S., Pandey, S. B., Pellegrino, C., Piscarreta, L., Rho, J., Stritzinger, M., Sunseri, J., Van Dyk, S. D., and Yadav, L.

Subjects

High Energy Astrophysical Phenomena (astro-ph.HE), Astrophysics - Solar and Stellar Astrophysics, FOS: Physical sciences, Astrophysics - High Energy Astrophysical Phenomena, Solar and Stellar Astrophysics (astro-ph.SR)

Abstract

We present high-cadence photometric and spectroscopic observations of SN~2020jfo in ultraviolet and optical/near-infrared bands starting from $\sim 3$ to $\sim 434$ days after the explosion, including the earliest data with the 10.4\,m GTC. SN~2020jfo is a hydrogen-rich Type II SN with a relatively short plateau duration ($67.0 \pm 0.6$ days). When compared to other Type II supernovae (SNe) of similar or shorter plateau lengths, SN~2020jfo exhibits a fainter peak absolute $V$-band magnitude ($M_V = -16.90 \pm 0.34$ mag). SN~2020jfo shows significant H$\alpha$ absorption in the plateau phase similar to that of typical SNe~II. The emission line of stable [Ni~II] $\lambda$7378, mostly seen in low-luminosity SNe~II, is very prominent in the nebular-phase spectra of SN~2020jfo. Using the relative strengths of [Ni~II] $\lambda$7378 and [Fe~II] $\lambda$7155, we derive the Ni/Fe production (abundance) ratio of 0.08--0.10, which is $\sim 1.5$ times the solar value. The progenitor mass of SN~2020jfo from nebular-phase spectral modelling and semi-analytical modelling falls in the range of 12--15\,$M_\odot$. Furthermore, semi-analytical modelling suggests a massive H envelope in the progenitor of SN~2020jfo, which is unlikely for SNe~II having short plateaus., Comment: 20 pages (plus 5 pages appendix), 19 figures, Accepted for publication in MNRAS

Published

2022

11. Observations of the luminous red nova AT 2021biy in the nearby galaxy NGC 4631

Author

Pastorello, A., Fraser, M., Filippenko, A. V., Reguitti, A., Patra, K. C., Goranskij, V. P., Barsukova, E. A., Brink, T. G., Elias-Rosa, N., Stevance, H. F., Zheng, W., Atapin, K. E., Benetti, S., Boer, T. J. L. de, Bose, S., Burke, J., Byrne, R., Cappellaro, E., Chambers, K. C., Emami, N., Hiramatsu, D., Howell, D. A., Huber, M. E., Kankare, E., Kelly, P. L., Kotak, R., Kravtsov, T., Lander, V. Yu, Lundqvist, P., Magnier, E. A., Malygin, E. A., Maslennikova, N. A., Matilainen, K., Mazzali, P. A., McCully, C., Mo, J., Moran, S., Newsome, M., Oparin, D. V., Gonzalez, E. Padilla, Reynolds, T. M., Shatsky, N. I., Smartt, S. J., Stritzinger, M. D., Tatarnikov, A. M., Terreran, G., Uklein, R. I., Valerin, G., Vallely, P. J., Vozyakova, O. V., Wainscoat, R., Zheltoukhov, S. G., Dastidar, R., Fulton, M., Galbany, L., Gangopadhyay, A., Ge, H. -W., Gutiérrez, C. P., Misra, K., Ou, Z. -W., Salmaso, I., and Tartaglia, L.

Subjects

astro-ph.HE, astro-ph.SR, astro-ph.GA

Abstract

We present an observational study of the luminous red nova (LRN) AT\,2021biy in the nearby galaxy NGC\,4631. The field of the object was routinely imaged during the pre-eruptive stage by synoptic surveys, but the transient was detected only at a few epochs from $\sim 231$\,days before maximum brightness. The LRN outburst was monitored with unprecedented cadence both photometrically and spectroscopically. AT\,2021biy shows a short-duration blue peak, with a bolometric luminosity of $\sim 1.6 \times 10^{41}$\,erg\,s$^{-1}$, followed by the longest plateau among LRNe to date, with a duration of 210\,days. A late-time hump in the light curve was also observed, possibly produced by a shell-shell collision. AT\,2021biy exhibits the typical spectral evolution of LRNe. Early-time spectra are characterised by a blue continuum and prominent H emission lines. Then, the continuum becomes redder, resembling that of a K-type star with a forest of metal absorption lines during the plateau phase. Finally, late-time spectra show a very red continuum ($T_{\mathrm{BB}} \approx 2050$ K) with molecular features (e.g., TiO) resembling those of M-type stars. Spectropolarimetric analysis indicates that AT\,2021biy has local dust properties similar to those of V838\,Mon in the Milky Way Galaxy. Inspection of archival {\it Hubble Space Telescope} data taken on 2003 August 3 reveals a $\sim 20$\,\msun\ progenitor candidate with log\,$(L/{\rm L}_{\odot}) = 5.0$\,dex and $T_{\rm{eff}} = 5900$\,K at solar metallicity. The above luminosity and colour match those of a luminous yellow supergiant. Most likely, this source is a close binary, with a 17--24\,\msun\ primary component.

Published

2022

12. Observations of the luminous red nova AT 2021biy in the nearby galaxy NGC 4631

Author

Cai, Y. -Z., Pastorello, A., Fraser, M., Wang, X. -F., Filippenko, A. V., Reguitti, A., Patra, K. C., Goranskij, V. P., Barsukova, E. A., Brink, T. G., Elias-Rosa, N., Stevance, H. F., Zheng, W., Yang, Y., Atapin, K. E., Benetti, S., de Boer, T. J. L., Bose, S., Burke, J., Byrne, R., Cappellaro, E., Chambers, K. C., Chen, W. -L., Emami, N., Gao, H., Hiramatsu, D., Howell, D. A., Huber, M. E., Kankare, E., Kelly, P. L., Kotak, R., Kravtsov, T., Lander, V. Yu., Li, Z. -T., Lin, C. -C., Lundqvist, P., Magnier, E. A., Malygin, E. A., Maslennikova, N. A., Matilainen, K., Mazzali, P. A., McCully, C., Mo, J., Moran, S., Newsome, M., Oparin, D. V., Gonzalez, E. Padilla, Reynolds, T. M., Shatsky, N. I., Smartt, S. J., Smith, K. W., Stritzinger, M. D., Tatarnikov, A. M., Terreran, G., Uklein, R. I., Valerin, G., Vallely, P. J., Vozyakova, O. V., Wainscoat, R., Yan, S. -Y., Zhang, J. -J., Zhang, T. -M., Zheltoukhov, S. G., Dastidar, R., Fulton, M., Galbany, L., Gangopadhyay, A., Ge, H. -W., Gutiérrez, C. P., Lin, H., Misra, K., Ou, Z. -W., Salmaso, I., Tartaglia, L., Xiao, L., and Zhang, X. -H.

Subjects

High Energy Astrophysical Phenomena (astro-ph.HE), Astrophysics - Solar and Stellar Astrophysics, Astrophysics::High Energy Astrophysical Phenomena, Astrophysics of Galaxies (astro-ph.GA), Astrophysics::Solar and Stellar Astrophysics, FOS: Physical sciences, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Astrophysics of Galaxies, Astrophysics::Galaxy Astrophysics, Solar and Stellar Astrophysics (astro-ph.SR)

Abstract

We present an observational study of the luminous red nova (LRN) AT\,2021biy in the nearby galaxy NGC\,4631. The field of the object was routinely imaged during the pre-eruptive stage by synoptic surveys, but the transient was detected only at a few epochs from $\sim 231$\,days before maximum brightness. The LRN outburst was monitored with unprecedented cadence both photometrically and spectroscopically. AT\,2021biy shows a short-duration blue peak, with a bolometric luminosity of $\sim 1.6 \times 10^{41}$\,erg\,s$^{-1}$, followed by the longest plateau among LRNe to date, with a duration of 210\,days. A late-time hump in the light curve was also observed, possibly produced by a shell-shell collision. AT\,2021biy exhibits the typical spectral evolution of LRNe. Early-time spectra are characterised by a blue continuum and prominent H emission lines. Then, the continuum becomes redder, resembling that of a K-type star with a forest of metal absorption lines during the plateau phase. Finally, late-time spectra show a very red continuum ($T_{\mathrm{BB}} \approx 2050$ K) with molecular features (e.g., TiO) resembling those of M-type stars. Spectropolarimetric analysis indicates that AT\,2021biy has local dust properties similar to those of V838\,Mon in the Milky Way Galaxy. Inspection of archival {\it Hubble Space Telescope} data taken on 2003 August 3 reveals a $\sim 20$\,\msun\ progenitor candidate with log\,$(L/{\rm L}_{\odot}) = 5.0$\,dex and $T_{\rm{eff}} = 5900$\,K at solar metallicity. The above luminosity and colour match those of a luminous yellow supergiant. Most likely, this source is a close binary, with a 17--24\,\msun\ primary component., 21 pages, 14 figures. Accepted by Astronomy and Astrophysics

Published

2022

13. SN 2021fxy: mid-ultraviolet flux suppression is a common feature of Type Ia supernovae.

Author

DerKacy, J M, Paugh, S, Baron, E, Brown, P J, Ashall, C, Burns, C R, Hsiao, E Y, Kumar, S, Lu, J, Morrell, N, Phillips, M M, Shahbandeh, M, Shappee, B J, Stritzinger, M D, Tucker, M A, Yarbrough, Z, Boutsia, K, Hoeflich, P, Wang, L, and Galbany, L

Subjects

TYPE I supernovae, LIGHT curves, MULTIPLE comparisons (Statistics), OPTICAL properties, PHOTOMETRY

Abstract

We present ultraviolet (UV) to near-infrared (NIR) observations and analysis of the nearby Type Ia supernova SN 2021fxy. Our observations include UV photometry from Swift /UVOT, UV spectroscopy from HST /STIS, and high-cadence optical photometry with the Swope 1-m telescope capturing intranight rises during the early light curve. Early B − V colours show SN 2021fxy is the first 'shallow-silicon' (SS) SN Ia to follow a red-to-blue evolution, compared to other SS objects which show blue colours from the earliest observations. Comparisons to other spectroscopically normal SNe Ia with HST UV spectra reveal SN 2021fxy is one of several SNe Ia with flux suppression in the mid-UV. These SNe also show blueshifted mid-UV spectral features and strong high-velocity Ca  ii features. One possible origin of this mid-UV suppression is the increased effective opacity in the UV due to increased line blanketing from high velocity material, but differences in the explosion mechanism cannot be ruled out. Among SNe Ia with mid-UV suppression, SNe 2021fxy and 2017erp show substantial similarities in their optical properties despite belonging to different Branch subgroups, and UV flux differences of the same order as those found between SNe 2011fe and 2011by. Differential comparisons to multiple sets of synthetic SN Ia UV spectra reveal this UV flux difference likely originates from a luminosity difference between SNe 2021fxy and 2017erp, and not differing progenitor metallicities as suggested for SNe 2011by and 2011fe. These comparisons illustrate the complicated nature of UV spectral formation, and the need for more UV spectra to determine the physical source of SNe Ia UV diversity. [ABSTRACT FROM AUTHOR]

Published

2023

14. Testing the homogeneity of type Ia Supernovae in near-infrared for accurate distance estimations

Author

Müller-Bravo, T. E., Galbany, L., Karamehmetoglu, E., Stritzinger, M., Burns, C., Phan, K., Iáñez Ferres, A., Anderson, J. P., Ashall, C., Baron, E., Hoeflich, P., Hsiao, E. Y., De Jaeger, T., Kumar, S., Lu, J., Phillips, M. M., Shahbandeh, M., Suntzeff, N., Uddin, S. A., Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Consejo Superior de Investigaciones Científicas (España), Villum Fonden, Independent Research Fund Denmark, and National Science Foundation (US)

Subjects

Cosmology and Nongalactic Astrophysics (astro-ph.CO), Distance scale, Space and Planetary Science, Cosmology: observations, general [Supernovae], Supernovae: general, FOS: Physical sciences, Astronomy and Astrophysics, observations [Cosmology], Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Since the discovery of the accelerating expansion of the Universe more than two decades ago, Type Ia Supernovae (SNe Ia) have been extensively used as standardisable candles in the optical. However, SNe Ia have shown to be more homogeneous in the near-infrared (NIR), where the effect of dust extinction is also attenuated. In this work, we explore the possibility of using a low number of NIR observations for accurate distance estimations, given the homogeneity at these wavelengths. We found that one epoch in J and/or H band, plus good gr-band coverage, gives an accurate estimation of peak magnitudes in the J (Jmax) and H (Hmax) bands. The use of a single NIR epoch only introduces an additional scatter of ∼0.05 mag for epochs around the time of B-band peak magnitude (Tmax). We also tested the effect of optical cadence and signal-to-noise ratio (S/N) in the estimation of Tmax and its uncertainty propagation to the NIR peak magnitudes. Both cadence and S/N have a similar contribution, where we constrained the introduced scatter of each to < 0.02 mag in Jmax and < 0.01 in Hmax. However, these effects are expected to be negligible, provided the data quality is comparable to that obtained for observations of nearby SNe (z ≲ 0.1). The effect of S/N in the NIR was tested as well. For SNe Ia at 0.08, TEMB and LG acknowledge financial support from the Spanish Ministerio de Ciencia e Innovación (MCIN), the Agencia Estatal de Investigación (AEI) 10.13039/501100011033 under the PID2020-115253GA-I00 HOSTFLOWS project, and from Centro Superior de Investigaciones Científicas (CSIC) under the PIE project 20215AT016, and the I-LINK 2021 LINKA20409. TEMB and LG are also partially supported by the program Unidad de Excelencia María de Maeztu CEX2020-001058-M. LG also acknowledges MCIN, AEI and the European Social Fund (ESF) “Investing in your future” under the 2019 Ramón y Cajal program RYC2019-027683-I. The Aarhus SN group is support by a Villum Experiment grant (number 28021) from VILLUM FONDEN and a Project 1 grant (8021-00170B) from the Independent Research Fund Denmark. PH acknowledge support by the National Science Foundation (NSF) grant AST-1715133. The work of the Carnegie Supernova Project has been supported by the NSF under the grants AST0306969, AST0607438, AST1008343, AST1613426, AST1613472 and AST613455. Software: matplotlib (Hunter 2007), seaborn (Waskom et al. 2017), numpy (Harris et al. 2020), pandas (McKinney 2010), scipy (Virtanen et al. 2020), emcee (Foreman-Mackey et al. 2013), coner (Foreman-Mackey 2016), george (Ambikasaran et al. 2016), astropy (Astropy Collaboration 2013, 2018), peakutils (Negri & Vestri 2017).

Published

2022

15. How low can you go? SN 2018zd as a low-mass Fe core-collapse supernova

Author

Callis, E., Fraser, M., Pastorello, A., Dong, Subo, Brennan, S. J., Chen, P., Bose, S., Reynolds, T., Salmon, L., Jonker, P., Benetti, S., Berton, M., Cannizzaro, G., Cappellaro, E., Congiu, E., Dyrbye, S., Eappachen, D., Elias-Rosa, N., Gromadzki, M., Guti��rrez, C. P., Holmbo, S., Holoien, T. W. S., Itagaki, K., Kankare, E., Mattila, S., Mutel, R., Ochner, P., Post, R. S., Prieto, J., Reguitti, A., Roth, T., Ryon, J., Sagu��s-Carracedo, A., Shappee, B. J., Siviero, A., Stassun, K. G., Stritzinger, M., Tomasella, L., Villanueva, S., Wevers, T., and Wiggins, P.

Subjects

High Energy Astrophysical Phenomena (astro-ph.HE), Astrophysics - Solar and Stellar Astrophysics, FOS: Physical sciences, Astrophysics - High Energy Astrophysical Phenomena, Solar and Stellar Astrophysics (astro-ph.SR)

Abstract

We present spectroscopy and photometry of SN 2018zd, a Type IIP core-collapse supernova with signatures of interaction with circumstantial material in its earliest spectra. High ionization lines, the earmark of shock breakout, are not seen in the earliest spectral epoch, and are only seen in a single spectrum at 4.9 d after explosion. The strength and brevity of these features imply a confined circumstellar material shell in the immediate vicinity of the progenitor. Once the narrow emission lines disappear, SN 2018zd evolves similarly to a Type IIP SN, although the blue colour and enhanced plateau magnitude of SN 2018zd suggests an additional source of luminosity throughout the plateau phase. While SN 2018zd has previously been proposed as an electron-capture SN, we suggest that it is an Fe core-collapse from a low mass red supergiant progenitor. Differences in interpretation for SN 2018zd arise in part due to the large uncertainty on the distance to the host-galaxy NGC 2146, which we re-derive here to be $15.6^{+6.1}_{-3.0}$ Mpc. We find the ejected $^{56}$Ni mass for SN 2018zd to be 0.017 M$_{\odot}$, significantly higher than models of ECSNe predict. We also find the Ni/Fe ratio in SN 2018zd to be much lower that would be expected for an ECSN.

Published

2021

16. An asymmetric explosion as the origin of spectral evolution diversity in type Ia supernovae

Author

Maeda, K., Benetti, S., Stritzinger, M., Ropke, F.K., Folatelli, G., Sollerman, J., Taubenberger, S., Nomoto, K., Leloudas, G., Hamuy, M., Tanaka, M., Mazzali, P.A., and Elias-Rosa, N.

Subjects

Observations, Research, Supernovas -- Observations -- Research, Nuclear explosions -- Research, Supernovae -- Observations -- Research

Abstract

When a carbon-oxygen white dwarf reaches a critical limit known as the Chandrasekhar mass (~ 1.38 solar masses), its central density and temperature increase to a point where a thermonuclear [...], Type Ia supernovae form an observationally uniform class of stellar explosions, in that more luminous objects have smaller declinerates (1). This one-parameter behaviour allows type Ia supernovae to be calibrated as cosmological 'standard candles', and led to the discovery of an accelerating Universe (2,3). Recent investigations, however, have revealed that the true nature of type Ia supernovae is more complicated. Theoretically, it has been suggested (4-8) that the initial thermonuclear sparks are ignited at an offset from the centre of the white-dwarf progenitor, possibly as a result of convection before the explosion (4). Observationally, the diversity seen in the spectral evolution of type Ia supernovae beyond the luminosity-decline-rate relation is an unresolved issue (9,10). Here we report that the spectral diversity is a consequence of random directions from which an asymmetric explosion is viewed. Our findings suggest that the spectral evolution diversity is no longer a concern when using type Ia supernovae as cosmological standard candles. Furthermore, this indicates that ignition at an offset from the centre is a generic feature of type Ia supernovae.

Published

2010

17. Progress and tests on the Instrument Control Electronics for SOXS

Author

Colapietro, M., Capasso, G., D'Orsi, S., Schipani, P., Marty, L., Savarese, S., Coretti, I., Campana, S., Claudi, R., Aliverti, M., Baruffolo, A., Ben-Ami, S., Biondi, F., Cosentino, R., D'Alessio, F., D'Avanzo, P., Hershko, O., Kuncarayakti, H., Landoni, M., Munari, M., Pignata, G., Rubin, A., Scuderi, S., Vitali, F., Young, D., Achr��n, J., Araiza-Duran, J. A., Arcavi, I., Brucalassi, A., Bruch, R., Cappellaro, E., Della Valle, M., De Pascale, M., Di Benedetto, R., Gal-Yam, A., Genoni, M., Hernandez, M., Kotilainen, J., Causi, G. Li, Mattila, S., Radhakrishnan, K., Rappaport, M., Ricci, D., Riva, M., Salasnich, B., Smartt, S., Sanchez, R. Zanmar, Stritzinger, M., and Ventura, H.

Subjects

FOS: Physical sciences, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM)

Abstract

The forthcoming SOXS (Son Of X-Shooter) will be a new spectroscopic facility for the ESO New Technology Telescope in La Silla, focused on transient events and able to cover both the UV-VIS and NIR bands. The instrument passed the Final Design Review in 2018 and is currently in manufacturing and integration phase. This paper is focused on the assembly and testing of the instrument control electronics, which will manage all the motorized functions, alarms, sensors, and electric interlocks. The electronics is hosted in two main control cabinets, divided in several subracks that are assembled to ensure easy accessibility and transportability, to simplify test, integration and maintenance. Both racks are equipped with independent power supply distribution and have their own integrated cooling systems. This paper shows the assembly strategy, reports on the development status and describes the tests performed to verify the system before the integration into the whole instrument., 10 pages, 12 figures, presented at SPIE

Published

2020

18. The development status of the NIR Arm of the new SoXS instrument at the ESO/NTT telescope

Author

Vitali, F., Aliverti, M., Capasso, G., D'Alessio, F., Munari, M., Riva, M., Scuderi, S., Sanchez, R. Zanmar, Campana, S., Schipani, P., Claudi, R., Baruffolo, A., Ben-Ami, S., Biondi, F., Brucalassi, A., Cosentino, R., Ricci, D., D'Avanzo, P., Kuncarayakti, H., Rubin, A., Achr��n, J., Araiza-Duran, J. A., Arcavi, I., Bianco, A., Bruch, R., Cappellaro, E., Colapietro, M., Della Valle, M., De Pascale, M., Di Benedetto, R., D'Orsi, S., Fantinel, D., Gal-Yam, A., Genoni, M., Hernandez, M., Hershko, O., Kotilainen, J., Landoni, M., Causi, G. Li, Mattila, S., Pignata, G., Radhakrishnan, K., Rappaport, M., Salasnich, B., Smartt, S., Stritzinger, M., Ventura, E., and Young, D.

Subjects

FOS: Physical sciences, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM)

Abstract

We present here the development status of the NIR spectrograph of the Son Of X-Shooter (SOXS) instrument, for the ESO/NTT telescope at La Silla (Chile). SOXS is a R~4,500 mean resolution spectrograph, with a simultaneously coverage from about 0.35 to 2.00 micron. It will be mounted at the Nasmyth focus of the NTT. The two UV-VIS-NIR wavelength ranges will be covered by two separated arms. The NIR spectrograph is a fully cryogenic echelle-dispersed spectrograph, working in the range 0.80-2.00 micron, equipped with a Hawaii H2RG IR array from Teledyne. The whole spectrograph will be cooled down to about 150 K (but the array at 40 K), to lower the thermal background, and equipped with a thermal filter to block any thermal radiation above 2.0 micron. In this work, we will show the advanced phase of integration of the NIR spectrograph., 9 pages, 13 Figures, SPIE 2020 Astronomical Telescopes + Instrumentation

Published

2020

19. The luminous red nova variety: AT 2020hat and AT 2020kog

Author

Pastorello, A., Valerin, G., Fraser, M., Elias-Rosa, N., Valenti, S., Reguitti, A., Mazzali, P. A., Amaro, R. C., Andrews, J. E., Dong, Y., Jencson, J., Lundquist, M., Reichart, D. E., Sand, D. J., Wyatt, S., Smartt, S. J., Smith, K. W., Srivastav, S., Cai, Y. -Z., Cappellaro, E., Holmbo, S., Fiore, A., Jones, D., Kankare, E., Karamehmetoglu, E., Lundqvist, P., Morales-Garoffolo, A., Reynolds, T. M., Stritzinger, M. D., Williams, S. C., Chambers, K. C., de Boer, T. J. L., Huber, M. E., Rest, A., and Wainscoat, R.

Subjects

Astrophysics - Solar and Stellar Astrophysics, FOS: Physical sciences, Solar and Stellar Astrophysics (astro-ph.SR)

Abstract

We present the results of our monitoring campaigns of the luminous red novae (LRNe) AT 2020hat in NGC 5068 and AT 2020kog in NGC 6106. The two objects were imaged (and detected) before their discovery by routine survey operations. They show a general trend of slow luminosity rise, lasting at least a few months. The subsequent major LRN outbursts were extensively followed in photometry and spectroscopy. The light curves present an initial short-duration peak, followed by a redder plateau phase. AT 2020kog is a moderately luminous event peaking at ~7 x 10^40 erg/s, while AT 2020hat is almost one order of magnitude fainter than AT 2020kog, although it is still more luminous than V838 Mon. In analogy with other LRNe, the spectra of AT 2020kog change significantly with time. They resemble those of type IIn supernovae at early phases, then they become similar to those of K-type stars during the plateau, and to M-type stars at very late phases. In contrast, AT 2020hat already shows a redder continuum at early epochs, and its spectrum shows the late appearance of molecular bands. A moderate-resolution spectrum of AT 2020hat taken at +37 d after maximum shows a forest of narrow P Cygni lines of metals with velocities of 180 km/s, along with an Halpha emission with a full-width at half-maximum velocity of 250 km/s. For AT 2020hat, a robust constraint on its quiescent progenitor is provided by archival images of the Hubble Space Telescope. The progenitor is clearly detected as a mid-K type star, with an absolute magnitude of MF606W = -3.33+-0.09 mag and a colour of F606W-F814W = 1.14+-0.05 mag, which are inconsistent with the expectations from a massive star that could later produce a core-collapse supernova. Although quite peculiar, the two objects nicely match the progenitor versus light curve absolute magnitude correlations discussed in the literature., 14 pages, 9 figures, 2 tables. Accepted for publication in A&A

Published

2020

20. Luminous Red Nova AT 2019zhd, a new merger in M 31

Author

Pastorello, A., Fraser, M., Valerin, G., Reguitti, A., Itagaki, K., Ochner, P., Williams, S. C., Jones, D., Munday, J., Smartt, S. J., Smith, K. W., Srivastav, S., Elias-Rosa, N., Kankare, E., Karamehmetoglu, E., Lundqvist, P., Mazzali, P. A., Munari, U., Stritzinger, M. D., Tomasella, L., Anderson, J. P., Chambers, K. C., and Rest, A.

Subjects

Astrophysics - Solar and Stellar Astrophysics, FOS: Physical sciences, Solar and Stellar Astrophysics (astro-ph.SR)

Abstract

We present the follow-up campaign of the luminous red nova (LRN) AT~2019zhd, the third event of this class observed in M 31. The object was followed by several sky surveys for about five months before the outburst, during which it showed a slow luminosity rise. In this phase, the absolute magnitude ranged from M_r=-2.8+-0.2 mag to M_r=-5.6+-0.1 mag. Then, over a four-five day period, AT 2019zhd experienced a major brightening, reaching at peak M_r=-9.61+-0.08 mag, and an optical luminosity of 1.4x10^39 erg/s. After a fast decline, the light curve settled onto a short-duration plateau in the red bands. Although less pronounced, this feature is reminiscent of the second red maximum observed in other LRNe. This phase was followed by a rapid linear decline in all bands. At maximum, the spectra show a blue continuum with prominent Balmer emission lines. The post-maximum spectra show a much redder continuum, resembling that of an intermediate-type star. In this phase, Halpha becomes very weak, Hbeta is no longer detectable and a forest of narrow absorption metal lines now dominate the spectrum. The latest spectra, obtained during the post-plateau decline, show a very red continuum (T_eff ~ 3000 K) with broad molecular bands of TiO, similar to those of M-type stars. The long-lasting, slow photometric rise observed before the peak resembles that of LRN V1309 Sco, which was interpreted as the signature of the common-envelope ejection. The subsequent outburst is likely due to the gas outflow following a stellar merging event. The inspection of archival HST images taken 22 years before the LRN discovery reveals a faint red source (M_F555W=0.21+-0.14 mag, with F555W-F814W = 2.96+-0.12 mag) at the position of AT 2019zhd, which is the most likely quiescent precursor. The source is consistent with expectations for a binary system including a predominant M5-type star., 17 pages, 10 figures, 3 tables. Accepted for publication in A&A

Published

2020

21. A Speed Bump: SN 2021aefx Shows that Doppler Shift Alone Can Explain Early Excess Blue Flux in Some Type Ia Supernovae.

Author

Ashall, C., Lu, J., Shappee, B. J., Burns, C. R., Hsiao, E. Y., Kumar, S., Morrell, N., Phillips, M. M., Shahbandeh, M., Baron, E., Boutsia, K., Brown, P. J., DerKacy, J. M., Galbany, L., Hoeflich, P., Krisciunas, K., Mazzali, P., Piro, A. L., Stritzinger, M. D., and Suntzeff, N. B.

Published

2022

22. A Panchromatic View of the Restless SN 2009ip Reveals the Explosive Ejection of a Massive Star Envelope

Author

Margutti, R, Milisavljevic, D, Soderberg, A. M, Chornock, R, Zauderer, B. A, Murase, K, Guidorzi, C, Sanders, N. E, Kuin, P, Fransson, C, Levesque, E. M, Chandra, P, Berger, E, Bianco, F. B, Brown, P. J, Challis, P, Chatzopoulos, E, Cheung, C. C, Choi, C, Chomiuk, L, Chugai, N, Contreras, C, Drout, M. R, Fesen, R, Foley, R. J, Fong, W, Friedman, A. S, Gall, C, Gehrels, N, Hjorth, J, Hsiao, E, Kirshner, R, Im, M, Leloudas, G, Lunnan, R, Marion, G. H, Martin, J, Morrell, N, Neugent, K. F, Omodei, N, Phillips, M. M, Rest, A, Silverman, J. M, Strader, J, Stritzinger, M. D, Szalai, T, Utterback, N. B, Vinko, J, Wheeler, J. C, Arnett, D, Campana, S, Chevalier, R, Ginsburg, A, Kamble, A, Roming, P. W. A, Pritchard, T, and Stringfellow, G

Subjects

Astrophysics

Abstract

The double explosion of SN 2009ip in 2012 raises questions about our understanding of the late stages of massive star evolution. Here we present a comprehensive study of SN 2009ip during its remarkable rebrightenings. High-cadence photometric and spectroscopic observations from the GeV to the radio band obtained from a variety of ground-based and space facilities (including the Very Large Array, Swift, Fermi, Hubble Space Telescope, and XMM) constrain SN 2009ip to be a low energy (E approximating 10(exp 50) ergs for an ejecta mass approximating 0.5 M solar mass) and asymmetric explosion in a complex medium shaped by multiple eruptions of the restless progenitor star. Most of the energy is radiated as a result of the shock breaking out through a dense shell of material located at approximately 5 times 10 (exp 14) cm with M approximating 0.1 solar mass, ejected by the precursor outburst approximately 40 days before the major explosion. We interpret the NIR (Near Infrared) excess of emission as signature of material located further out, the origin of which has to be connected with documented mass-loss episodes in the previous years. Our modeling predicts bright neutrino emission associated with the shock break-out if the cosmic-ray energy is comparable to the radiated energy. We connect this phenomenology with the explosive ejection of the outer layers of the massive progenitor star, which later interacted with material deposited in the surroundings by previous eruptions. Future observations will reveal if the massive luminous progenitor star survived. Irrespective of whether the explosion was terminal, SN 2009ip brought to light the existence of new channels for sustained episodic mass loss, the physical origin of which has yet to be identified.

Published

2013

23. Multi-Wavelength Observations of the Type IIb Supernova 2009mg

Author

Oates, S. R, Bayless, A. J, Stritzinger, M. D, Prichard, T, Prieto, J. L, Immler, S, Brown, P. J, Breeveld, A. A, DePasquale, M, Kuin, N. P. M, Hamuy, M, Holland, S. T, Taddia, F, and Roming, P. W. A

Subjects

Astronomy

Abstract

We present Swift UVOT and XRT observations, and visual wavelength spectroscopy of the Type IIb supernova (SN) 2009mg, discovered in the Sb galaxy ESO 121-G26. The observational properties of SN 2009mg are compared to the prototype Type IIb SNe 1993J and 2008ax, with which we find many similarities. However,minor differences are discernible including SN 2009mg not exhibiting an initial fast decline or micro-band upturn as observed in the comparison objects, and its rise to maximum is somewhat slower leading to slightly broader light curves. The late-time temporal index of SN 2009mg, determined from 40 days post-explosion, is consistent with the decay rate of SN 1993J, but inconsistent with the decay of Co-56. This suggests leakage of gamma-rays out of the ejecta and a stellar mass on the small side of the mass distribution. Our XRT nondetection provides an upper limit on the mass-loss rate of the progenitor of M less than 1.5 x 10(exp -5) solar mass yr(exp -1). Modelling of the SN light curve indicates a kinetic energy of 0.15 sup +0.02 sub -0.13 x 10(exp 51) erg, an ejecta mass of 0.56 sup+0.10 sub -.26 solar mass and a Ni-56 mass of 0.10 plus or minus 0.01 solar mass.

Published

2012

24. A relativistic type Ibc supernova without a detected γ-ray burst

Author

Soderberg, A. M., Chakraborti, S., Pignata, G., Chevalier, R. A., Chandra, P., Ray, A., Wieringa, M. H., Copete, A., Chaplin, V., Connaughton, V., Barthelmy, S. D., Bietenholz, M. F., Chugai, N., Stritzinger, M. D., Hamuy, M., Fransson, C., Fox, O., Levesque, E. M., Grindlay, J. E., Challis, P., Foley, R. J., Kirshner, R. P., Milne, P. A., and Torres, M. A. P.

Published

2010

25. very low central oxygen mass in the peculiar type Ia SN 2010lp: further diversity at the low-luminosity end of SNe Ia.

Author

Mazzali, P A, Benetti, S, Stritzinger, M, and Ashall, C

Subjects

TYPE I supernovae, WHITE dwarf stars, LIGHT curves

Abstract

A nebular spectrum of the peculiar, low-luminosity type Ia supernova 2010lp is modelled in order to estimate the composition of the inner ejecta and to illuminate the nature of this event. Despite having a normally declining light curve, SN 2010lp was similar spectroscopically to SN 1991bg at early times. However, it showed a very unusual double-peaked [O  i ]  |$\lambda \lambda \, 6300,6363$| emission at late times (Taubenberger et al.). Modelling of the nebular spectrum suggests that a very small amount of oxygen (∼0.05 M⊙), expanding at very low speed (≲ 2000 km s−1) is sufficient to reproduce the observed emission. The rest of the nebula is not too dissimilar from SN 1991bg, except that SN 2010lp is slightly more luminous. The double-peaked [O  i ] emission suggests that SN 2010lp may be consistent with the merger or collision of two low-mass white dwarfs. The low end of the SN Ia luminosity sequence is clearly populated by diverse events, where different channels may contribute. [ABSTRACT FROM AUTHOR]

Published

2022

26. A Tale of Two Type Ia Supernovae: The Fast-declining Siblings SNe 2015bo and 1997cn.

Author

Hoogendam, W. B., Ashall, C., Galbany, L., Shappee, B. J., Burns, C. R., Lu, J., Phillips, M. M., Baron, E., Holmbo, S., Hsiao, E. Y., Morrell, N., Stritzinger, M. D., Suntzeff, N. B., Taddia, F., Young, D. R., Lyman, J. D., Benetti, S., Mazzali, P. A., Delgado Mancheño, M., and DĂ-az, R. González

Subjects

TYPE I supernovae, LIGHT curves, SIBLINGS

Abstract

We present optical and near-infrared photometric and spectroscopic observations of the fast-declining Type Ia supernova (SN) 2015bo. SN 2015bo is underluminous (M B = âˆ'17.50 ± 0.15 mag) and has a fast-evolving light curve (Î"m15(B) = 1.91 ± 0.01 mag and s BV = 0.48 ± 0.01). It has a unique morphology in the observed V âˆ' r color curve, where it is bluer than all other supernovae (SNe) in the comparison sample. A 56Ni mass of 0.17 ± 0.03 M ⊙ was derived from the peak bolometric luminosity, which is consistent with its location on the luminosityâ€"width relation. Spectroscopically, SN 2015bo is a cool SN in the Branch classification scheme. The velocity evolution measured from spectral features is consistent with 1991bg-like SNe. SN 2015bo has a SN twin (similar spectra) and sibling (same host galaxy), SN 1997cn. Distance moduli of ÎĽ = 34.33 ± 0.01 (stat) ±0.11 (sys) mag and ÎĽ = 34.34 ± 0.04 (stat) ± 0.12 (sys) mag are derived for SN 2015bo and SN 1997cn, respectively. These distances are consistent at the 0.06 σ level with each other, and they are also consistent with distances derived using surface-brightness fluctuations and redshift-corrected cosmology. This suggests that fast-declining SNe could be accurate distance indicators, which should not be excluded from future cosmological analyses. [ABSTRACT FROM AUTHOR]

Published

2022

27. Seeing Double:ASASSN-18bt Exhibits a two-component Rise in the Early-Time K2 Light Curve

Author

Shappee, B. J., Holoien, T. W. -s., Drout, M. R., Auchettl, K., Stritzinger, M. D., Kochanek, C. S., Stanek, K. Z., Shaya, E., Narayan, G., Brown, J. S., Bose, S., Bersier, D., Brimacombe, J., Chen, Ping, Dong, Subo, Holmbo, S., Katz, B., Munnoz, J. A., Mutel, R. L., Post, R. S., Prieto, J. L., Shields, J., Tallon, D., Thompson, T. A., Vallely, P. J., Jr, S. Villanueva, Denneau, L., Flewelling, H., Heinze, A. N., Smith, K. W., Stalder, B., Tonry, J. L., Weiland, H., Barclay, T., Barentsen, G., Cody, A. M., Dotson, J., Foerster, F., Garnavich, P., Gully-santiago, M., Hedges, C., Howell, S., Kasen, D., Margheim, S., Mushotzky, R., Rest, A., Tucker, B. E., Villar, A., Zenteno, A., Beerman, G., Bjella, R., Castillo, G., Coughlin, J., Elsaesser, B., Flynn, S., Gangopadhyay, R., Griest, K., Hanley, M., Kampmeier, J., Kloetzel, R., Kohnert, L., Labonde, C., Larsen, R., Larson, K. A., Mccalmont-everton, K. M., Mcginn, C., Migliorini, L., Moffatt, J., Muszynski, M., Nystrom, V., Osborne, D., Packard, M., Peterson, C. A., Redick, M., Reedy, L. H., Spencer, B., Steward, K., Cleve, J. E. Van, Cardoso, J. Vinicius De Miranda, Weschler, T., Wheaton, A., Bulger, J., Lowe, T. B., Magnier, E. A., Waters, C. Z., Willman, M., Baron, Eddie, Chen, Zhihao, Derkacy, James M., Huang, Fang, Li, Linyi, Li, Wenxiong, Li, Xue, Rui, Liming, Sai, Hanna, Wang, Lifan, Wang, Lingzhi, Wang, Xiaofeng, Xiang, Danfeng, Zhang, Jicheng, Zhang, Jujia, Zhang, Kaicheng, Zhang, Tianmeng, Zhang, Xinghan, Zhao, Xulin, Brown, P. J., Hermes, J. J., Nordin, J., Points, S., and Strampelli, G. M.

Subjects

astro-ph.HE

Abstract

On 2018 Feb. 4.41, the All-Sky Automated Survey for SuperNovae (ASAS-SN) discovered ASASSN-18bt in the K2 Campaign 16 field. With a redshift of $z=0.010981$ and a peak apparent magnitude of $B_{max}=14.31$, ASASSN-18bt is the nearest and brightest SNe Ia yet observed by the Kepler spacecraft. Here we present the discovery of ASASSN-18bt, the K2 light curve, and pre-discovery data from ASAS-SN and the Asteroid Terrestrial-impact Last Alert System (ATLAS). The K2 early-time light curve has an unprecedented cadence and photometric precision for an SN Ia light curve, and it unambiguously shows a 4 day nearly linear phase followed by a steeper rise. Thus, ASASSN-18bt joins a growing list of SNe Ia whose early light curves are not well described by a single power law. We show that a double-power-law model fits the data reasonably well, hinting that two physical processes must be responsible for the observed rise. However, we find that current models of the interaction with a non-degenerate companion predict an abrupt rise and cannot adequately explain the initial, slower linear phase. Instead, we find that existing, published models with shallow $^{56}$Ni are able to span the observed behavior and, with tuning, may be able to reproduce the ASASSN-18bt light curve. Regardless, more theoretical work is needed to satisfactorily model this and other early-time SNe~Ia light curves. Finally, we use Swift X-ray non-detections to constrain the presence of CSM at much larger distances and lower densities than possible with the optical light curve. Assuming a wind-like environment, the observed X-ray limit corresponds to a mass-loss limit of $\dot M

Published

2019

28. AT 2017be-a new member of the class of intermediate-luminosity red transients:luminosity red transients

Author

Cai, Y-Z., Pastorello, A., Fraser, M., Botticella, M. T., Gall, C., Arcavi, I., Benetti, S., Cappellaro, E., Elias-Rosa, N., Harmanen, J., Hosseinzadeh, G., Howell, D. A., Isern, J., Kangas, T., Kankare, E., Kuncarayakti, H., Lundqvist, P., Mattila, S., McCully, C., Reynolds, T. M., Somero, A., Stritzinger, M. D., and Terreran, G.

Subjects

individual: AT 2017be [supernovae], OPTICAL TRANSIENT, STANDARD STARS, mass-loss [stars], NGC 300, AGB and post-AGB [stars], 8-10 M. STARS, ELECTRON-CAPTURE SUPERNOVAE, ETA-CARINAE ANALOG, individual: NGC 2537 [galaxies], II SUPERNOVAE, GIANT BRANCH STARS, SN 2008S, BLUE VARIABLES, general [supernovae]

Abstract

We report the results of our spectrophotometric monitoring campaign for AT 2017be in NGC 2537. Its light curve reveals a fast rise to an optical maximum, followed by a plateau lasting about 30 d, and finally a fast decline. Its absolute peak magnitude (M-r similar or equal to -12 mag) is fainter than that of core-collapse supernovae, and is consistent with those of supernova impostors and other intermediate-luminosity optical transients. The quasi-bolometric light-curve peaks at similar to 2 x 10(40) erg s(-1), and the late-time photometry allows us to constrain an ejected Ni-56 mass of similar to 8 x 10(-4)M(circle dot). The spectra of AT 2017 be show minor evolution over the observational period, a relatively blue continuum showing at early phases, which becomes redder with time. A prominent H alpha emission line always dominates over other Balmer lines. Weak Fe II features, Can H&K, and the Ca II NIR triplet are also visible, while P-Cygni absorption troughs are found in a high-resolution spectrum. In addition, the [Ca II] lambda lambda 7291, 7324 doublet is visible in all spectra. This feature is typical of intermediate-luminosity red transients (ILRTs), similar to SN 2008S. The relatively shallow archival Spitzer data are not particularly constraining. On the other hand, a non-detection in deeper near-infrared HST images disfavours a massive Luminous Blue Variable eruption as the origin for AT 2017be. As has been suggested for other ILRTs, we propose that AT 2017be is a candidate for a weak electron-capture supernova explosion of a superasymptotic giant branch star, still embedded in a thick dusty envelope.

Published

2018

29. The Cow:Discovery of a Luminous, Hot, and Rapidly Evolving Transient

Author

Prentice, S. J., Maguire, K., Smartt, S. J., Magee, M. R., Schady, P., Sim, S., Chen, T. -W., Clark, P., Colin, C., Fulton, M., McBrien, O., O`Neill, D., Smith, K. W., Ashall, C., Chambers, K. C., Denneau, L., Flewelling, H. A., Heinze, A., Holoien, T. W. -S., Huber, M. E., Kochanek, C. S., Mazzali, P. A., Prieto, J. L., Rest, A., Shappee, B. J., Stalder, B., Stanek, K. Z., Stritzinger, M. D., Thompson, T. A., Tonry, J. L., and Université Pierre et Marie Curie - Paris 6 (UPMC)

Subjects

High Energy Astrophysical Phenomena (astro-ph.HE), LIGHT CURVES, EXPLOSIONS, SHOCK BREAKOUT, TELESCOPE, STAR, FOS: Physical sciences, stars: neutron, stars: magnetars, individual (AT2018cow) [stars], neutron [stars], MAGNETARS, supernovae: general, magnetars [stars], stars: individual, Astrophysics - High Energy Astrophysical Phenomena, [PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph], general [supernovae], QC, SUPERNOVA, QB

Abstract

We present the ATLAS discovery and initial analysis of the first 18 days of the unusual transient event, ATLAS18qqn/AT2018cow. It is characterized by a high peak luminosity ($\sim$1.7 $\times$ 10$^{44}$ erg s$^{-1}$), rapidly evolving light curves ($>$5 mag rise to peak in $\sim$3.5 days), and hot blackbody spectra, peaking at $\sim$27000 K that are relatively featureless and unchanging over the first two weeks. The bolometric light curve cannot be powered by radioactive decay under realistic assumptions. The detection of high-energy emission may suggest a central engine as the powering source. Using a magnetar model, we estimated an ejected mass of $0.1-0.4$ \msol, which lies between that of low-energy core-collapse events and the kilonova, AT2017gfo. The spectra cooled rapidly from 27000 to 15000 K in just over 2 weeks but remained smooth and featureless. Broad and shallow emission lines appear after about 20 days, and we tentatively identify them as He I although they would be redshifted from their rest wavelengths. We rule out that there are any features in the spectra due to intermediate mass elements up to and including the Fe-group. The presence of r-process elements cannot be ruled out. If these lines are due to He, then we suggest a low-mass star with residual He as a potential progenitor. Alternatively, models of magnetars formed in neutron-star mergers give plausible matches to the data., Accepted for publication in ApJL, updated to reflect the published version

Published

2018

30. Transient Classification Report for 2018-08-15

Author

Stritzinger, M., Dong, S., Fynbo, J., Alizai, K., Gomez, C., Haidari, F., Malloy, M., Rehal, P. S., Slumstrup, D., and Svendsen, S. B.

Subjects

Transient, Supernova, SN 2018exb, SN2018exb, 2018exb

Abstract

Not Available

Published

2018

31. The double-peaked Type Ic supernova 2019cad: another SN 2005bf-like object.

Author

Gutiérrez, C P, Bersten, M C, Orellana, M, Pastorello, A, Ertini, K, Folatelli, G, Pignata, G, Anderson, J P, Smartt, S, Sullivan, M, Pursiainen, M, Inserra, C, Elias-Rosa, N, Fraser, M, Kankare, E, Moran, S, Reguitti, A, Reynolds, T M, Stritzinger, M, and Burke, J

Subjects

TYPE I supernovae, MAGNETARS, LIGHT curves, EXTREME value theory, SUPERNOVAE

Abstract

We present the photometric and spectroscopic evolution of supernova (SN) 2019cad during the first ∼100 d from explosion. Based on the light-curve morphology, we find that SN 2019cad resembles the double-peaked Type Ib/c SN 2005bf and the Type Ic PTF11mnb. Unlike those two objects, SN 2019cad also shows the initial peak in the redder bands. Inspection of the g- band light curve indicates the initial peak is reached in ∼8 d, while the r -band peak occurred ∼15 d post-explosion. A second and more prominent peak is reached in all bands at ∼45 d past explosion, followed by a fast decline from ∼60 d. During the first 30 d, the spectra of SN 2019cad show the typical features of a Type Ic SN, however, after 40 d, a blue continuum with prominent lines of Si  ii λ6355 and C  ii λ6580 is observed again. Comparing the bolometric light curve to hydrodynamical models, we find that SN 2019cad is consistent with a pre-SN mass of 11 M⊙, and an explosion energy of 3.5 × 1051 erg. The light-curve morphology can be reproduced either by a double-peaked 56Ni distribution with an external component of 0.041 M⊙, and an internal component of 0.3 M⊙ or a double-peaked 56Ni distribution plus magnetar model (P ∼ 11 ms and B ∼ 26 × 1014 G). If SN 2019cad were to suffer from significant host reddening (which cannot be ruled out), the 56Ni model would require extreme values, while the magnetar model would still be feasible. [ABSTRACT FROM AUTHOR]

Published

2021

32. ASASSN-18am/SN 2018gk: an overluminous Type IIb supernova from a massive progenitor.

Author

Bose, Subhash, Dong, Subo, Kochanek, C S, Stritzinger, M D, Ashall, Chris, Benetti, Stefano, Falco, E, Filippenko, Alexei V, Pastorello, Andrea, Prieto, Jose L, Somero, Auni, Sukhbold, Tuguldur, Zhang, Junbo, Auchettl, Katie, Brink, Thomas G, Brown, J S, Chen, Ping, Fiore, A, Grupe, Dirk, and Holoien, T W-S

Subjects

TYPE II supernovae, LIGHT curves, KINETIC energy, SUPERNOVAE, CIRCUMSTELLAR matter

Abstract

ASASSN-18am/SN 2018gk is a newly discovered member of the rare group of luminous, hydrogen-rich supernovae (SNe) with a peak absolute magnitude of MV ≈ −20 mag that is in between normal core-collapse SNe and superluminous SNe. These SNe show no prominent spectroscopic signatures of ejecta interacting with circumstellar material (CSM), and their powering mechanism is debated. ASASSN-18am declines extremely rapidly for a Type II SN, with a photospheric-phase decline rate of ∼6.0 mag (100 d)−1. Owing to the weakening of H  i and the appearance of He  i in its later phases, ASASSN-18am is spectroscopically a Type IIb SN with a partially stripped envelope. However, its photometric and spectroscopic evolution shows significant differences from typical SNe IIb. Using a radiative diffusion model, we find that the light curve requires a high synthesized 56Ni mass |$M_{\rm Ni} \sim 0.4\, \rm {M_{\odot }}$| and ejecta with high kinetic energy E kin = (7–10) × 1051 erg. Introducing a magnetar central engine still requires |$M_{\rm Ni} \sim 0.3\, \rm {M_{\odot }}$| and E kin = 3 × 1051 erg. The high 56Ni mass is consistent with strong iron-group nebular lines in its spectra, which are also similar to several SNe Ic-BL with high 56Ni yields. The earliest spectrum shows 'flash ionization' features, from which we estimate a mass-loss rate of |$\dot{M}\approx 2\times 10^{-4} \, \rm \rm {M_{\odot }}\,yr^{-1}$|⁠. This wind density is too low to power the luminous light curve by ejecta–CSM interaction. We measure expansion velocities as high as 17 000  |$\rm {\, km\, s^{-1}}$| for Hα, which is remarkably high compared to other SNe II. We estimate an oxygen core mass of 1.8–3.4 M⊙ using the [O  i ] luminosity measured from a nebular-phase spectrum, implying a progenitor with a zero-age main-sequence mass of 19–26 M⊙. [ABSTRACT FROM AUTHOR]

Published

2021

33. Gaia17biu/SN 2017egm in NGC 3191:the closest hydrogen-poor superluminous supernova to date is in a 'normal', massive, metal-rich spiral galaxy

Author

Bose, Subhash, Dong, Subo, Pastorello, A., Filippenko, Alexei V., Kochanek, C. S., Mauerhan, Jon, Romero-Canizales, C., Brink, Thomas, Chen, Ping, Prieto, J. L., Post, R., Ashall, Christopher, Grupe, Dirk, Tomasella, L., Benetti, Stefano, Shappee, B. J., Stanek, K. Z., Cai, Zheng, Falco, E., Lundqvist, Peter, Mattila, Seppo, Mutel, Robert, Ochner, Paolo, Pooley, David, Stritzinger, M. D., Villanueva, S., Zheng, Weikang, Beswick, R. J., Brown, Peter J., Cappellaro, E., Davis, Scott, Jaeger, Thomas, Elias-Rosa, N., Christa Gall, Gaudi, B. Scott, Herczeg, Gregory J., Hestenes, Julia, Holoien, T. W. -S, Hosseinzadeh, Griffin, Hsiao, E. Y., Hu, Shaoming, Jaejin, Shin, Jeffers, Ben, Koff, R. A., Kumar, Sahana, Kurtenkov, Alexander, Lau, Marie Wingyee, Prentice, Simon, Rudy, Richard J., Shahbandeh, Melissa, Somero, Auni, Stassun, Keivan G., Thompson, T. A., Valenti, Stefano, Woo, Jong-Hak, and Yunus, Sameen

Subjects

astro-ph.HE, astro-ph.SR, astro-ph.GA, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics::Galaxy Astrophysics

Abstract

The rare hydrogen-poor superluminous supernovae (SLSNe-I) have been predominantly found in low-metallicity, star-forming dwarf galaxies. Here we identify Gaia17biu/SN 2017egm as an SLSN-I occurring in a "normal" spiral galaxy (NGC 3191) in terms of stellar mass (several times 10^10 M_sun) and metallicity (roughly solar). At redshift z=0.031, Gaia17biu is also the lowest redshift SLSN-I to date, and the absence of a larger population of SLSNe-I in dwarf galaxies of similar redshift suggests that metallicity is likely less important to the production of SLSNe-I than previously believed. With the smallest distance and highest apparent brightness for a SLSN-I, we are able to study Gaia17biu in unprecedented detail. Its pre-peak NUV to optical color is similar to that of Gaia16apd and among the bluest observed for a SLSN-I, while its peak luminosity (M_g = -21) is at the low end of the SLSN-I luminosity function. The pre-peak spectra resemble those of some fast-declining SLSNe-I while the post-peak spectra are similar to those of slow-declining SLSNe-I, suggesting that the post-peak decline rate is probably not a useful indicator for describing the spectral diversity of SLSNe-I. Thanks to the high SNRs of our spectra, we identify several new spectroscopic features that may help to probe the properties of these enigmatic explosions. We also detect polarization at the ~0.5% level that is not strongly dependent on wavelength, suggesting a modest, global departure from spherical symmetry for the source. In addition, we put the tightest upper limit yet on the radio luminosity of an SLSN-I at

Published

2018

34. Spectroscopic classification of transients

Author

Stritzinger, M. D., Fraser, M., Hummelmose, N. N., Grundahl, F., Jensen, M. L., Knudgaard, J. D., Madsen, L., Skarso, E. R., Sneftrup, P. S., Kolborg, A. N., Kallesoe, S. S., Fynbo, J. P. U., Dahl, M., Frolich, L. S., Pabst, S. R., Paspaliaris, E.-D., Rasmussen, M. T., Rhodin, H., Saldic, Z., Sandberg, M. J., and van der Walt, S. J.

Subjects

Cataclysmic Variable, Supernovae

Abstract

We report the spectroscopic classification of several transients based on observations taken with the Nordic Optical Telescope (NOT) equipped with ALFOSC, over the nights 23-25 August 2017.

Published

2017

35. Luminous Type II supernovae for their low expansion velocities.

Author

Rodríguez, Ó, Pignata, G, Anderson, J P, Moriya, T J, Clocchiatti, A, Förster, F, Prieto, J L, Phillips, M M, Burns, C R, Contreras, C, Folatelli, G, Gutiérrez, C P, Hamuy, M, Morrell, N I, Stritzinger, M D, Suntzeff, N B, Benetti, S, Cappellaro, E, Elias-Rosa, N, and Pastorello, A

Subjects

LIGHT curves, VELOCITY, CIRCUMSTELLAR matter, SUPERNOVAE

Abstract

We present optical and near-infrared data of three Type II supernovae (SNe II), SN 2008bm, SN 2009aj, and SN 2009au. These SNe display the following common characteristics: signs of early interaction of the ejecta with circumstellar material (CSM), blue B − V colours, weakness of metal lines, low expansion velocities, and V -band absolute magnitudes 2–3 mag brighter than those expected for normal SNe II based on their expansion velocities. Two more SNe reported in the literature (SN 1983K and LSQ13fn) share properties similar to our sample. Analysing this set of five SNe II, which are luminous for their low expansion velocities (LLEV), we find that their properties can be reproduced assuming ejecta–CSM interaction that lasts between 4 and 11 weeks post-explosion. The contribution of this interaction to the radiation field seems to be the dominant component determining the observed weakness of metal lines in the spectra rather than the progenitor metallicity. Based on hydrodynamic simulations, we find that the interaction of the ejecta with a CSM of ∼3.6 M⊙ can reproduce the light curves and expansion velocities of SN 2009aj. Using data collected by the Chilean Automatic Supernova Search, we estimate an upper limit for the LLEV SNe II fraction to be 2–4 per cent of all normal SNe II. With the current data set, it is not clear whether the LLEV events are a separated class of SNe II with a different progenitor system, or whether they are the extreme of a continuum mediated by CSM interaction with the rest of the normal SN II population. [ABSTRACT FROM AUTHOR]

Published

2020

36. Carnegie Supernova Project-II: A New Method to Photometrically Identify Sub-types of Extreme Type Ia Supernovae.

Author

Ashall, C., Lu, J., Burns, C., Hsiao, E. Y., Stritzinger, M., Suntzeff, N. B., Phillips, M., Baron, E., Contreras, C., Davis, S., Galbany, L., Hoeflich, P., Holmbo, S., Morrell, N., Karamehmetoglu, E., Krisciunas, K., Kumar, S., Shahbandeh, M., and Uddin, S.

Published

2020

37. SN 2016gsd: an unusually luminous and linear Type II supernova with high velocities.

Author

Reynolds, T M, Fraser, M, Mattila, S, Ergon, M, Dessart, L, Lundqvist, P, Dong, Subo, Elias-Rosa, N, Galbany, L, Gutiérrez, C P, Kangas, T, Kankare, E, Kotak, R, Kuncarayakti, H, Pastorello, A, Rodriguez, O, Smartt, S J, Stritzinger, M, Tomasella, L, and Chen, Ping

Subjects

SUPERNOVAE, SUPERGIANT stars, LIGHT curves, VELOCITY, DWARF galaxies

Abstract

We present observations of the unusually luminous Type II supernova (SN) 2016gsd. With a peak absolute magnitude of V  = −19.95 ± 0.08, this object is one of the brightest Type II SNe, and lies in the gap of magnitudes between the majority of Type II SNe and the superluminous SNe. Its light curve shows little evidence of the expected drop from the optically thick phase to the radioactively powered tail. The velocities derived from the absorption in H α are also unusually high with the blue edge tracing the fastest moving gas initially at 20 000 km s−1, and then declining approximately linearly to 15 000 km s−1 over ∼100 d. The dwarf host galaxy of the SN indicates a low-metallicity progenitor which may also contribute to the weakness of the metal lines in its spectra. We examine SN 2016gsd with reference to similarly luminous, linear Type II SNe such as SNe 1979C and 1998S, and discuss the interpretation of its observational characteristics. We compare the observations with a model produced by the jekyll code and find that a massive star with a depleted and inflated hydrogen envelope struggles to reproduce the high luminosity and extreme linearity of SN 2016gsd. Instead, we suggest that the influence of interaction between the SN ejecta and circumstellar material can explain the majority of the observed properties of the SN. The high velocities and strong H α absorption present throughout the evolution of the SN may imply a circumstellar medium configured in an asymmetric geometry. [ABSTRACT FROM AUTHOR]

Published

2020

38. Nebular spectra of 111 Type Ia supernovae disfavour single-degenerate progenitors.

Author

Tucker, M A, Shappee, B J, Vallely, P J, Stanek, K Z, Prieto, J L, Botyanszki, J, Kochanek, C S, Anderson, J P, Brown, J, Galbany, L, Holoien, T W-S, Hsiao, E Y, Kumar, S, Kuncarayakti, H, Morrell, N, Phillips, M M, Stritzinger, M D, and Thompson, Todd A

Subjects

TYPE I supernovae, PLANETARY nebulae

Abstract

We place statistical constraints on Type Ia supernova (SN Ia) progenitors using 227 nebular-phase spectra of 111 SNe Ia. We find no evidence of stripped companion emission in any of the nebular-phase spectra. Upper limits are placed on the amount of mass that could go undetected in each spectrum using recent hydrodynamic simulations. With these null detections, we place an observational 3σ upper limit on the fraction of SNe Ia that are produced through the classical H-rich non-degenerate companion scenario of |$\lt 5.5 {{\ \rm per\ cent}}$|⁠. Additionally, we set a tentative 3σ upper limit otan He star progenitor scenarios of |$\lt 6.4 {{\ \rm per\ cent}}$|⁠ , although further theoretical modelling is required. These limits refer to our most representative sample including normal, 91bg-like, 91T-like, and 'super-Chandrasekhar' SNe Ia but excluding SNe Iax and SNe Ia-CSM. As part of our analysis, we also derive a Nebular Phase Phillips Relation, which approximates the brightness of an SN Ia from 150 to 500 d after maximum using the peak magnitude and decline rate parameter Δ m 15(B). [ABSTRACT FROM AUTHOR]

Published

2020

39. Supernov Aelig;

Author

Stritzinger, M. and Moriya, T. J.

Subjects

Supernov Aelig, IAU transient naming criterion, transient surveys

Abstract

This Workshop covered a cornucopia of topics that were featured in short formal presentations, followed by a round-Table discussion. G. Hosseinzadeh and H. Kuncarayakti presented the results of their recent researches into interacting supernov Aelig;. They included both the intriguing Type Ibn supernova subclass, and SN 2017dio, which appears to be the first Type Ic supernova to be seen to exhibit signatures of hydrogen-rich circumstellar interaction at all phases. M. Sullivan provided a summary relating to the future of transient science in the era of Big Data, and participants discussed strategies to determine which targets and fields should be selected for spectroscopic follow-up. The Workshop concluded with a rather heated discussion regarding the need for the IAU Supernov Aelig; Working Group to consider modifying the current criterion for a confirmed supernova in order for it to receive an official IAU designation.

Published

2017

40. THE YOUNG AND BRIGHT TYPE IA SUPERNOVA ASASSN-141p:DISCOVERY, EARLY-TIME OBSERVATIONS, FIRST-LIGHT TIME, DISTANCE TO NGC 4666, AND PROGENITOR CONSTRAINTS

Author

Shappee, B. J., Piro, A. L., Holoien, T. W. -S., Prieto, J. L., Contreras, C., Itagaki, K., Burns, C. R., Kochanek, C. S., Stanek, K. Z., Alper, E., Basu, U., Beacom, J. F., Bersier, D., Brimacombe, J., Conseil, E., Danilet, A. B., Dong, Subo, Falco, E., Grupe, D., Hsiao, E. Y., Kiyota, S., Morrell, N., Nicolas, J., Phillips, M. M., Pojmanski, G., Simonian, G., Stritzinger, M., Szczygiel, D. M., Taddia, F., Thompson, T. A., Thorstensen, J., Wagner, M. R., and Wozniak, P. R.

Subjects

LIGHT CURVES, RISE-TIME, IMAGE SUBTRACTION, distances and redshifts [galaxies], WHITE-DWARF, HUBBLE-SPACE-TELESCOPE, HIGH-REDSHIFT SUPERNOVAE, SWIFT ULTRAVIOLET/OPTICAL TELESCOPE, PHOTOMETRY DATA RELEASE, X-RAY TELESCOPE, SN 2011FE, individual (ASASSN-141p, Type Ia, NGC 4666, ASASSN-141p) [supernovae], white dwarfs

Abstract

On 2014 December 9.61, the All-sky Automated Survey for SuperNovae (ASAS-SN or "Assassin") discovered ASASSN-141p just similar to 2 days after first light using a global array of 14 cm diameter telescopes. ASASSN-141p went on to become a bright supernova (V = 11.94 mag), second only to SN 2014J for the year. We present prediscovery photometry (with a detection less than a day after first light) and ultraviolet through near-infrared photometric and spectroscopic data covering the rise and fall of ASASSN-141p for more than 100 days. We find that ASASSN-141p had a broad light curve (Delta m(15) (B) = 0.80 +/- 0.05), a B-band maximum at 2457015.82 +/- 0.03, a rise time of 16.941(-0.10)(+0.11) days, and moderate host-galaxy extinction (E (B - V)host = 0.33 +/- 0.06). Using ASASSN-141p, we derive a distance modulus for NGC 4666 of mu = 30.8 +/- 0.2, corresponding to a distance of 14.7 +/- 1.5 Mpc. However, adding ASASSN-141p to the calibrating sample of Type Ia supernovae still requires an independent distance to the host galaxy. Finally, using our early-time photometric and spectroscopic observations, we rule out red giant secondaries and, assuming a favorable viewing angle and explosion time, any nondegenerate companion larger than 0.34 RG(circle dot).

Published

2016

41. Comparison of the optical light curves of hydrogen-rich and hydrogen-poor type II supernovae.

Author

Pessi, P J, Folatelli, G, Anderson, J P, Bersten, M, Burns, C, Contreras, C, Davis, S, Englert, B, Hamuy, M, Hsiao, E Y, Martinez, L, Morrell, N, Phillips, M M, Suntzeff, N, and Stritzinger, M D

Subjects

LIGHT curves, SUPERNOVAE, RADIOACTIVE substances, HYDROGEN

Abstract

Type II supernovae (SNe II) show strong hydrogen features in their spectra throughout their whole evolution, while type IIb supernovae (SNe IIb) spectra evolve from dominant hydrogen lines at early times to increasingly strong helium features later on. However, it is currently unclear whether the progenitors of these SN types form a continuum in pre-SN hydrogen mass or whether they are physically distinct. SN light-curve morphology directly relates to progenitor and explosion properties such as the amount of hydrogen in the envelope, the pre-SN radius, the explosion energy, and the synthesized mass of radioactive material. In this work, we study the morphology of the optical-wavelength light curves of hydrogen-rich SNe II and hydrogen-poor SNe IIb to test whether an observational continuum exists between the two. Using a sample of 95 SNe (73 SNe II and 22 SNe IIb), we define a range of key observational parameters and present a comparative analysis between both types. We find a lack of events that bridge the observed properties of SNe II and IIb. Light-curve parameters such as rise times and post-maximum decline rates and curvatures clearly separate both SN types and we therefore conclude that there is no continuum, with the two SN types forming two observationally distinct families. In the V band a rise time of 17 d (SNe II lower and SNe IIb higher), and a magnitude difference between 30 and 40 d post-explosion of 0.4 mag (SNe II lower and SNe IIb higher) serve as approximate thresholds to differentiate both types. [ABSTRACT FROM AUTHOR]

Published

2019

42. GRB 161219B/SN 2016jca: a powerful stellar collapse.

Author

Ashall, C, Mazzali, P A, Pian, E, Woosley, S E, Palazzi, E, Prentice, S J, Kobayashi, S, Holmbo, S, Levan, A, Perley, D, Stritzinger, M D, Bufano, F, Filippenko, A V, Melandri, A, Oates, S, Rossi, A, Selsing, J, Zheng, W, Castro-Tirado, A J, and Chincarini, G

Subjects

GAMMA ray bursts, TYPE I supernovae, KINETIC energy, LIGHT curves

Abstract

We report observations and analysis of the nearby gamma-ray burst GRB 161219B (redshift z  = 0.1475) and the associated Type Ic supernova (SN) 2016jca. GRB 161219B had an isotropic gamma-ray energy of ∼1.6 × 1050 erg. Its afterglow is likely refreshed at an epoch preceding the first photometric points (0.6 d), which slows down the decay rates. Combined analysis of the SN light curve and multiwavelength observations of the afterglow suggest that the GRB jet was broad during the afterglow phase (full opening angle ∼42° ± 3°). Our spectral series shows broad absorption lines typical of GRB supernovae (SNe), which testify to the presence of material with velocities up to ∼0.25c. The spectrum at 3.73 d allows for the very early identification of an SN associated with a GRB. Reproducing it requires a large photospheric velocity (⁠|$35\, 000 \pm 7000$|  km s−1). The kinetic energy of the SN is estimated through models to be E kin≈4 × 1052 erg in spherical symmetry. The ejected mass in the explosion was M ej≈6.5 ± 1.5 M⊙, much less than that of other GRB-SNe, demonstrating diversity among these events. The total amount of 56Ni in the explosion was 0.27 ± 0.05 M⊙. The observed spectra require the presence of freshly synthesized 56Ni at the highest velocities, at least three times more than a standard GRB-SN. We also find evidence for a decreasing 56Ni abundance as a function of decreasing velocity. This suggests that SN 2016jca was a highly aspherical explosion viewed close to on-axis, powered by a compact remnant. Applying a typical correction for asymmetry, the energy of SN 2016jca was ∼(1–3) × 1052 erg, confirming that most of the energy produced by GRB-SNe goes into the kinetic energy of the SN ejecta. [ABSTRACT FROM AUTHOR]

Published

2019

43. ASASSN-18tb: a most unusual Type Ia supernova observed by TESS and SALT.

Author

Vallely, P J, Fausnaugh, M, Jha, S W, Tucker, M A, Eweis, Y, Shappee, B J, Kochanek, C S, Stanek, K Z, Chen, Ping, Dong, Subo, Prieto, J L, Sukhbold, T, Thompson, Todd A, Brimacombe, J, Stritzinger, M D, Holoien, T W-S, Buckley, D A H, Gromadzki, M, and Bose, Subhash

Subjects

TYPE I supernovae, SUPERNOVAE, SUPERNOVA remnants, CIRCUMSTELLAR matter, LIGHT curves, MOLECULAR spectra

Abstract

We present photometric and spectroscopic observations of the unusual Type Ia supernova ASASSN-18tb, including a series of Southern African Large Telescope spectra obtained over the course of nearly six months and the first observations of a supernova by the Transiting Exoplanet Survey Satellite. We confirm a previous observation by Kollmeier et al. showing that ASASSN-18tb is the first relatively normal Type Ia supernova to exhibit clear broad (∼1000 km s−1) H α emission in its nebular-phase spectra. We find that this event is best explained as a sub-Chandrasekhar mass explosion producing |$M_{\mathrm{ Ni}} \approx 0.3\,\, \rm {M}_\odot$|⁠. Despite the strong H α signature at late times, we find that the early rise of the supernova shows no evidence for deviations from a single-component power-law and is best fit with a moderately shallow power law of index 1.69 ± 0.04. We find that the H α luminosity remains approximately constant after its initial detection at phase +37 d, and that the H α velocity evolution does not trace that of the Fe  iii  λ4660 emission. These suggest that the H α emission arises from a circumstellar medium (CSM) rather than swept-up material from a non-degenerate companion. However, ASASSN-18tb is strikingly different from other known CSM-interacting Type Ia supernovae in a number of significant ways. Those objects typically show an H α luminosity two orders of magnitude higher than what is seen in ASASSN-18tb, pushing them away from the empirical light-curve relations that define 'normal' Type Ia supernovae. Conversely, ASASSN-18tb exhibits a fairly typical light curve and luminosity for an underluminous or transitional SN Ia, with MR ≈ −18.1 mag. Moreover, ASASSN-18tb is the only SN Ia showing H α from CSM interaction to be discovered in an early-type galaxy. [ABSTRACT FROM AUTHOR]

Published

2019

44. Discovery and progenitor constraints on the Type Ia supernova 2013gy.

Author

Holmbo, S., Stritzinger, M. D., Shappee, B. J., Tucker, M. A., Zheng, W., Ashall, C., Phillips, M. M., Contreras, C., Filippenko, A. V., Hoeflich, P., Huber, M., Piro, A. L., Wang, X. F., Zhang, J.-J., Anais, J., Baron, E., Burns, C. R., Campillay, A., Castellón, S., and Corco, C.

Subjects

*MONTE Carlo method, *TYPE I supernovae, *MARKOV chain Monte Carlo, *LIGHT curves, *SUPERNOVA remnants, *SUPERNOVAE

Abstract

We present an early-phase g-band light curve and visual-wavelength spectra of the normal Type Ia supernova (SN) 2013gy. The light curve is constructed by determining the appropriate S-corrections to transform KAIT natural-system B- and V-band photometry and Carnegie Supernova Project natural-system g-band photometry to the Pan-STARRS1 g-band natural photometric system. A Markov chain Monte Carlo calculation provides a best-fit single power-law function to the first ten epochs of photometry described by an exponent of 2.16+0.06−0.06 2. 16 − 0.06 + 0.06 $ 2.16^{+0.06}_{-0.06} $ and a time of first light of MJD 56629.4+0.1−0.1 56629. 4 − 0.1 + 0.1 $ 56629.4^{+0.1}_{-0.1} $ , which is 1.93+0.12−0.13 1. 93 − 0.13 + 0.12 $ 1.93^{+0.12}_{-0.13} $ days (i.e., < 48 h) before the discovery date (2013 December 4.84 UT) and −19.10+0.12−0.13 − 19. 10 − 0.13 + 0.12 $ -19.10^{+0.12}_{-0.13} $ days before the time of B-band maximum (MJD 56648.5 ± 0.1). The estimate of the time of first light is consistent with the explosion time inferred from the evolution of the Si IIλ6355 Doppler velocity. Furthermore, discovery photometry and previous nondetection limits enable us to constrain the companion radius down to Rc ≤ 4 R⊙. In addition to our early-time constraints, we used a deep +235 day nebular-phase spectrum from Magellan/IMACS to place a stripped H-mass limit of < 0.018 M⊙. Combined, these limits effectively rule out H-rich nondegenerate companions. [ABSTRACT FROM AUTHOR]

Published

2019

45. The relative specific Type Ia supernovae rate from three years of ASAS-SN.

Author

Brown, J S, Stanek, K Z, Holoien, T W-S, Kochanek, C S, Shappee, B J, Prieto, J L, Dong, S, Chen, P, Thompson, Todd A, Beacom, J F, Stritzinger, M D, Bersier, D, and Brimacombe, J

Subjects

SUPERNOVAE, TYPE I supernovae

Abstract

We analyse the 476 SN Ia host galaxies from the All-Sky Automated Survey for Supernova (ASAS-SN) Bright Supernova Catalogues to determine the observed relative Type Ia supernova (SN) rates as a function of luminosity and host galaxy properties. We find that the luminosity distribution of the SNe Ia in our sample is reasonably well described by a Schechter function with a faint-end slope α ≈ 1.5 and a knee M ⋆ ≈ −18.0. Our specific SN Ia rates are consistent with previous results but extend to far lower host galaxy masses. We find an overall rate that scales as (M ⋆/1010 M⊙)α with α ≈ −0.5. This shows that the specific SN Ia rate continues rising towards lower masses even in galaxies as small as log (M ⋆/M⊙) ≲ 7.0, where it is enhanced by a factor of ∼10–20 relative to host galaxies with stellar masses ∼1010 M⊙. We find no strong dependence of the specific SN Ia rate on the star formation activity of the host galaxies, but additional observations are required to improve the constraints on the star formation rates. [ABSTRACT FROM AUTHOR]

Published

2019

46. SN 2011hs: a fast and faint Type IIb supernova from a supergiant progenitor

Author

Bufano F., Pignata G., Bersten M., Mazzali, P. A., Ryder, S. D., Margutti R., Milisavljevic D., Morelli, L., Benetti S., Cappellaro E., González-Gaitan S., Romero-Canizales, C., Stritzinger M., Walker E.S., Anderson J.P., and Contreras C.

Published

2014

47. Probing type Ia supernova properties using bolometric light curves from the Carnegie Supernova Project and the CfA Supernova Group.

Author

Scalzo, R A, Parent, E, Burns, C, Childress, M, Tucker, B E, Brown, P J, Contreras, C, Hsiao, E, Krisciunas, K, Morrell, N, Phillips, M M, Piro, A L, Stritzinger, M, and Suntzeff, N

Subjects

SUPERNOVAE, CATACLYSMIC variable stars, PHOTOMETRY, WHITE dwarf stars, DARK energy

Abstract

We present bolometric light curves constructed from multiwavelength photometry of Type Ia supernovae (SNe Ia) from the Carnegie Supernova Project and the CfA Supernova Group, using near-infrared observations to provide robust constraints on host galaxy dust extinction. This set of light curves form a well-measured reference set for comparison with theoretical models. Ejected mass and synthesized 56Ni mass are inferred for each SN Ia from its bolometric light curve using a semi-analytic Bayesian light curve model, and fitting formulas provided in terms of light curve width parameters from the salt2 and SNooPy light curve fitters. A weak bolometric width–luminosity relation is confirmed, along with a correlation between ejected mass and the bolometric light curve width. SNe Ia likely to have sub-Chandrasekhar ejected masses belong preferentially to the broad-line and cool-photosphere spectroscopic subtypes, and have higher photospheric velocities and populate older, higher mass host galaxies than SNe Ia consistent with Chandrasekhar-mass explosions. Two peculiar events, SN 2006bt and SN 2006ot, have normal peak luminosities but appear to have super-Chandrasekhar ejected masses. [ABSTRACT FROM AUTHOR]

Published

2019

48. On the type Ia supernovae 2007on and 2011iv: evidence for Chandrasekhar-mass explosions at the faint end of the luminosity-width relationship.

Author

Ashall, C., Mazzali, P. A., Stritzinger, M. D., Hoeflich, P., Burns, C. R., Gall, C., Hsiao, E. Y., Phillips, M. M., Morrell, N., and Foley, Ryan J.

Subjects

SUPERNOVAE, LUMINOSITY, RADIATIVE transfer, ENERGY level transitions, COSMIC abundances, STATISTICAL equilibrium

Abstract

Radiative transfer models of two transitional type Ia supernovae (SNe Ia) have been produced using the abundance stratification technique. These two objects - designated SN 2007on and SN 2011iv - both exploded in the same galaxy, NGC1404, which allows for a direct comparison. SN 2007on synthesized 0.25M⊙ of 56Ni and was less luminous than SN 2011iv, which produced 0.31M⊙ of 56Ni. SN2007on had a lower central density (ρc) and higher explosion energy (Ekin ~1.3 ± 0.3 × 1051erg) than SN 2011iv, and it produced less nuclear statistical equilibrium (NSE) elements (0.06M⊙). Whereas, SN2011iv had a larger ρc, which increased the electron capture rate in the lowest velocity regions, and produced 0.35M⊙ of stable NSE elements. SN 2011iv had an explosion energy of ~Ekin ~0.9 ± 0.2 × 1051erg. Both objects had an ejecta mass consistent with the Chandrasekhar mass (Ch-mass), and their observational properties are well described by predictions from delayed-detonation explosion models. Within this framework, comparison to the sub-luminous SN 1986G indicates SN 2011iv and SN 1986G have different transition densities (ρtr) but similar ρc. Whereas SN 1986G and SN 2007on had a similar ρtr but different ρc. Finally, we examine the colour-stretch parameter sBV versus Lmax relation and determine that the bulk of SNe Ia (including the sub-luminous ones) are consistent with Ch-mass delayed-detonation explosions, where the main parameter driving the diversity is ρtr. We also find ρc to be driving the second-order scatter observed at the faint end of the luminosity-width relationship. [ABSTRACT FROM AUTHOR]

Published

2018

49. Observed Type II supernova colours from the Carnegie Supernova Project-I.

Author

de Jaeger, T., Anderson, J. P., Galbany, L., González-Gaitán, S., Hamuy, M., Phillips, M. M., Stritzinger, M. D., Contreras, C., Folatelli, G., Gutiérrez, C. P., Hsiao, E. Y., Morrell, N., Suntzeff, N. B., Dessart, L., and Filippenko, A. V.

Subjects

UNIVERSE, GALAXIES, ASTROPHYSICS, GALAXY clusters, METAPHYSICAL cosmology

Abstract

photometric data from the Carnegie Supernovae Project-I. We analyse four colours (B -- V, u -- g, g -- r, and g -- Y) and find that SN II colour curves can be described by two linear regimes during the photospheric phase. The first (s1, colour) is steeper and has a median duration of ~40 d. The second, shallower slope (s2, colour) lasts until the end of the 'plateau' (***80 d). The two slopes correlate in the sense that steeper initial colour curves also imply steeper colour curves at later phases. As suggested by recent studies, SNe II form a continuous population of objects from the colour point of view as well. We investigate correlations between the observed colours and a range of photometric and spectroscopic parameters including the absolute magnitude, the V-band light-curve slopes, and metal-line strengths. We find that less luminous SNe II appear redder, a trend that we argue is not driven by uncorrected hostgalaxy reddening. While there is significant dispersion, we find evidence that redder SNe II (mainly at early epochs) display stronger metal-line equivalent widths. Host-galaxy reddening does not appear to be a dominant parameter, neither driving observed trends nor dominating the dispersion in observed colours. Intrinsic SN II colours are most probably dominated by photospheric temperature differences, with progenitor metallicity possibly playing a minor role. Such temperature differences could be related to differences in progenitor radius, together with the presence or absence of circumstellar material close to the progenitor stars. [ABSTRACT FROM AUTHOR]

Published

2018

50. The nebular spectra of the transitional Type Ia Supernovae 2007on and 2011iv: broad, multiple components indicate aspherical explosion cores.

Author

Mazzali, P A, Ashall, C, Pian, E, Stritzinger, M D, Gall, C, Phillips, M M, Höflich, P, and Hsiao, E

Subjects

NEBULAE, SUPERNOVAE, WHITE dwarf stars, ELLIPTICAL galaxies, ASTROPHYSICS

Abstract

The nebular-epoch spectrum of the rapidly declining, 'transitional' Type Ia supernova (SN) 2007on showed double emission peaks, which have been interpreted as indicating that the SN was the result of the direct collision of two white dwarfs. The spectrum can be reproduced using two distinct emission components, one redshifted and one blueshifted. These components are similar in mass but have slightly different degrees of ionization. They recede from one another at a line-of-sight speed larger than the sum of the combined expansion velocities of their emitting cores, thereby acting as two independent nebulae. While this configuration appears to be consistent with the scenario of two white dwarfs colliding, it may also indicate an off-centre delayed detonation explosion of a near-Chandrasekhar-mass white dwarf. In either case, broad emission line widths and a rapidly evolving light curve can be expected for the bolometric luminosity of the SN. This is the case for both SNe 2007on and 2011iv, also a transitional SN Ia that exploded in the same elliptical galaxy, NGC 1404. Although SN 2011iv does not show double-peaked emission line profiles, the width of its emission lines is such that a two-component model yields somewhat better results than a single-component model. Most of the mass ejected is in one component, however, which suggests that SN 2011iv was the result of the off-centre ignition of a Chandrasekhar-mass white dwarf. [ABSTRACT FROM AUTHOR]

Published

2018