Your search keyword '"Umut Burgaz"' showing total 8 results

1. SN 2022joj: A Peculiar Type Ia Supernova Possibly Driven by an Asymmetric Helium-shell Double Detonation

Author

Chang Liu, Adam A. Miller, Samuel J. Boos, Ken J. Shen, Dean M. Townsley, Steve Schulze, Luke Harvey, Kate Maguire, Joel Johansson, Thomas G. Brink, Umut Burgaz, Georgios Dimitriadis, Alexei V. Filippenko, Saarah Hall, K-Ryan Hinds, Andrew Hoffman, Viraj Karambelkar, Charles D. Kilpatrick, Daniel Perley, Neil Pichay, Huei Sears, Jesper Sollerman, Robert Stein, Jacco H. Terwel, WeiKang Zheng, Matthew J. Graham, Mansi M. Kasliwal, Leander Lacroix, Josiah Purdum, Benjamin Rusholme, and Avery Wold

Subjects

Supernovae, Type Ia supernovae, White dwarf stars, Observational astronomy, Surveys, Astrophysics, QB460-466

Abstract

We present observations of SN 2022joj, a peculiar Type Ia supernova discovered by the Zwicky Transient Facility. SN 2022joj exhibits an unusually red g _ZTF − r _ZTF color at early times and a rapid blueward evolution afterward. Around maximum brightness, SN 2022joj shows a high luminosity ( ${M}_{{g}_{\mathrm{ZTF}},\max }\simeq -19.7$ mag), a blue broadband color ( g _ZTF − r _ZTF ≃ −0.2 mag), and shallow Si ii absorption lines, consistent with those of overluminous, SN 1991T-like events. The maximum-light spectrum also shows prominent absorption around 4200 Å, which resembles the Ti ii features in subluminous, SN 1991bg-like events. Despite the blue optical-band colors, SN 2022joj exhibits extremely red ultraviolet minus optical colors at maximum luminosity ( u − v ≃ 0.6 mag and uvw 1 − v ≃ 2.5 mag), suggesting a suppression of flux at ∼2500–4000 Å. Strong C ii lines are also detected at peak. We show that these unusual spectroscopic properties are broadly consistent with the helium-shell double detonation of a sub-Chandrasekhar mass ( M ≃ 1 M _⊙ ) carbon/oxygen white dwarf from a relatively massive helium shell ( M _s ≃ 0.04–0.1 M _⊙ ), if observed along a line of sight roughly opposite to where the shell initially detonates. None of the existing models could quantitatively explain all the peculiarities observed in SN 2022joj. The low flux ratio of [Ni ii ] λ 7378 to [Fe ii ] λ 7155 emission in the late-time nebular spectra indicates a low yield of stable Ni isotopes, favoring a sub-Chandrasekhar mass progenitor. The significant blueshift measured in the [Fe ii ] λ 7155 line is also consistent with an asymmetric chemical distribution in the ejecta, as is predicted in double-detonation models.

Published

2023

2. Spectroscopic and Photometric Observations of Dwarf Nova Superoutbursts by the 3.8 m Telescope Seimei and the Variable Star Network

Author

Tampo, Yusuke, Isogai, Keisuke, Kojiguchi, Naoto, Maehara, Hiroyuki, Taguchi, Kenta, Kato, Taichi, Kimura, Mariko, Wakamatsu, Yasuyuki, Shibata, Masaaki, Nogami, Daisaku, Kawabata, Miho, Maeda, Keiichi, Namekata, Kosuke, Okamoto, Soshi, Otsuka, Masaaki, Umut, Burgaz, Nagoshi, Shumpei, Itoh, Hiroshi, Vanmunster, Tonny, Tordai, Tamas, Stone, Geoffrey, Matsumoto, Katsura, Fujii, Daiti, Matsumura, Ryota, Nakagawa, Momoka, Takeuchi, Nodoka, Zenkou, Yuki, Pavlenko, Elena P., Antonyuk, Kirill A., Pit, Nikolaj V., Antonyuk, Oksana I., Babina, Julia V., Baklanov, Aleksei V., Sosnovskij, Aleksei A., Shugarov, Sergey Yu., Katysheva, Nataly, Chochol, Drahomir, Dvorak, Shawn, Dubovsky, Pavol A., Medulka, Tomas, Kudzej, Igor, Kiyota, Seiichiro, Zubareva, Alexandra M., Belinski, Alexandr A., Ikonnikova, Natalia P., Burlak, Marina A., Sano, Yasuo, Mizutani, Masanori, Ruiz, Javier, pickard, Roger D., Franz-josef, Hambsch, Dufoer, Sjoerd, Brincat, Stephen M., Galdies, Charles, Menzies, Kenneth, Moriyama, Masayuki, Hiraga, Mitsutaka, Maeda, Yutaka, Hirosawa, Kenji, Funada, Masao, and Yamamoto, Minoru

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present spectroscopic and photometric observations of 17 dwarf-nova superoutbursts obtained by KOOLS-IFU mounted on the 3.8 m telescope Seimei at Okayama Observatory of Kyoto University and through VSNET collaboration. Our spectroscopic observations for six outbursts were performed within 1 d from their optical peak. 11 objects (TCP J00590972+3438357. ASASSN-19ado, TCP J06073081-0101501, ZTF20aavnpug, ASASSN-19ady, MASTER OT J061642.05+435617.9, TCP J20034647+1335125, ASASSN-20kv, ASASSN-20kw, MASTER OT J213908.79+161240.2, and ASASSN-20mf) were previously unknown systems, and our observations enabled quick classification of their transient type. These results illustrate that Seimei telescope has the capability to conduct quick follow-up observations of unknown transients. Our photometric observations yielded that 11 objects are WZ Sge-type dwarf novae and their candidates, and the other six objects are SU UMa-type dwarf novae and their candidates. The He II 4686\AA~ emission line was clearly detected among ASASSN-19ado, TCP J06073081-0101501 and MASTER OT J213908.79+161240.2, whose association with a spiral arm structure in an accretion disk has been suggested in the previous studies. Our result suggests that a higher-inclination system shows a stronger emission line of He II 4686\AA, as well as larger-amplitude early superhumps., Comment: 21 pages, 14 figures, 3 tables, accepted for publication in PASJ

Published

2021

3. Intermediate Luminosity Type Iax SN 2019muj With Narrow Absorption Lines: Long-Lasting Radiation Associated With a Possible Bound Remnant Predicted by the Weak Deflagration Model

Author

Tatsuya Nakaoka, Anirban Dutta, Masaaki Otsuka, Masayuki Yamanaka, Iida Kota, Keisuke Isogai, Hiroyuki Maehara, K. L. Murata, Kumiko Morihana, Tomohito Ohshima, Kazuya Matsubayashi, Brajesh Kumar, Keiichi Maeda, Kentaro Aoki, Miho Kawabata, Naoto Kojiguchi, Koji Sugitani, Jun Takahashi, D. Kuroda, M. Kino, Kengo Takagi, G. C. Anupama, Avinash Singh, D. K. Sahu, Koji S. Kawabata, and Umut Burgaz

Subjects

Sn 2011fe, Absorption spectroscopy, FOS: Physical sciences, Astrophysics, Iax Supernova, Rise-Time, Type (model theory), 01 natural sciences, Flattening, Luminosity, Optical Observations, Photometry, supernovae: general, 0103 physical sciences, 010303 astronomy & astrophysics, High Energy Astrophysical Phenomena (astro-ph.HE), Physics, Diversity, 010308 nuclear & particles physics, Late-Time Spectroscopy, White dwarf, Astronomy and Astrophysics, Light curve, supernovae: individual (SN 2019muj, ASASSN-19tr, SN 2008ha, SN 2010ae, SN 2014dt), Supernova, Near-Infrared Observations, Space and Planetary Science, Light Curves, Deflagration, Astrophysics - High Energy Astrophysical Phenomena, Faint

Abstract

We present comprehensive spectroscopic and photometric analyses of the intermediate luminosity type lax supernova (SN lax) 2019muj based on multi-band datasets observed through the framework of the OISTER target-of-opportunity program. SN 2019muj exhibits almost identical characteristics to the subluminous SNe lax 2008ha and 2010ae in terms of the observed spectral features and the light curve evolution at the early phase, except for the peak luminosity. The long-term observations unveil late-time flattening light curves as seen in luminous SN lax 2014dt. This can be explained by the existence of an inner dense and optically thick component possibly associated with a bound white dwarf remnant left behind after the explosion. We demonstrate that the weak deflagration model with a wide range of explosion parameters can reproduce the late-phase light curves of other SNe lax. Therefore, we conclude that a common explosion mechanism operates for different subclass SNe lax., DST-JSPS grant [DST/INT/JSPS/P-281/2018]; Optical and Near-infrared Astronomy Inter-University Cooperation Program; JSPS KAKENHI [JP19K23461, 21K13959, JP20H00174, JP20H04737, JP18H04585, JP18H05223, JP17H02864, JP17K14253]; Turkish Scientific and Technical Research Council (TUBITAK-2211C); Turkish Scientific and Technical Research Council (TUBITAK-2214A); [19B-N-CN02]; [19B-N-CT01], We are grateful to the staff at the Seimei and Subaru telescopes for their support. The spectral data using the Seimei telescope were taken under the programs 19B-N-CN02, 19B-N-CT01. The latephase observation was performed with the Subaru telescope under S19B-055. We are honored and grateful for the opportunity of observing the Universe from Maunakea, which has cultural, historical, and natural significance in Hawaii. We thank the support staff at IAO and CREST who enabled the 2m HCT observations. The IAO is operated by the Indian Institute of Astrophysics, Bangalore, India. D.K.S. and G.C.A. acknowledge partial support through DSTJSPS grant DST/INT/JSPS/P-281/2018. The authors also thank T. J. Moriya and M. Tanaka for insightful comments. This research has made use of the NASA/IPAC Extragalactic Database (NED), which is operated by the Jet Propulsion Laboratory, California Institute of Technology, under contract with theNational Aeronautics and Space Administration. The spectral data of comparison SNe were downloaded from the SUSPECT7 (Richardson et al. 2001) and WISeREP8 (Yaron & Gal-Yam 2012) databases. This research has made use of data obtained from the High Energy Astrophysics Science Archive Research Center (HEASARC), a service of the Astrophysics Science Division at NASA/GSFC and of the Smithsonian Astrophysical Observatory's High Energy Astrophysics Division. This work is supported by the Optical and Near-infrared Astronomy Inter-University Cooperation Program. The authors declare that there is no conflict of interests. M.K. acknowledges support by JSPS KAKENHI Grants (JP19K23461, 21K13959). K.M. acknowledges support by JSPS KAKENHI Grants (JP20H00174, JP20H04737, JP18H04585, JP18H05223, JP17H02864). M.Y. is partly supported by JSPS KAKENHI Grant (JP17K14253). U.B. acknowledges the support provided by the Turkish Scientific and Technical Research Council (TUBITAK-2211C and 2214A).

Published

2021

4. Calcium-rich Transient SN 2019ehk in a Star-forming Environment: Yet Another Candidate for a Precursor of a Double Neutron-star Binary

Author

Tatsuya Nakaoka, Takashi Nagao, Ryou Ohsawa, Masayuki Yamanaka, Masaaki Otsuka, Kengo Takagi, Mahito Sasada, Shigeyuki Sako, Makoto Uemura, Ji An Jiang, Nozomu Tominaga, Keisuke Isogai, Masaomi Tanaka, Takashi J. Moriya, Tomoki Morokuma, Keiichi Maeda, Miho Kawabata, Kenta Taguchi, Hiroshi Akitaya, Umut Burgaz, Koji S. Kawabata, Hiroyuki Maehara, and Fumiya Imazato

Subjects

Physics, Dense Circumstellar Material, White-Dwarf, Multiobject Spectrograph, Ic Supernovae, Binary number, chemistry.chemical_element, Astronomy and Astrophysics, Astrophysics, Calcium, Faint Type, Neutron star, Supernova, chemistry, Gap Transients, Space and Planetary Science, Shock Breakout, Massive Stars, Transient (oscillation), Supernova Light Curves, Ia Supernova

Abstract

We present optical and near-infrared observations of SN 2019ehk, which was initially reported as a Type Ib supernova (SN). We show that it evolved to a Ca-rich transient according to its spectral properties and evolution in late phases. However, it shows a few properties distinct from those of the canonical Ca-rich transients: a short-duration first peak in the light curve, high peak luminosity, and association with a star-forming environment. Indeed, some of these features are shared with iPTF14gqr and iPTF16hgs, which are candidates for a special class of core-collapse SNe: the so-called ultra-stripped envelope SNe, i.e., a relatively low-mass He (or C+O) star explosion in a binary as a precursor of short-period double neutron star (NS) binaries. The estimated ejecta mass (0.4M (circle dot)) and explosion energy (1.7 x 10(50) erg) are consistent with this scenario. The analysis of the first peak suggests the existence of dense circumstellar material in the vicinity of the progenitor, implying a CCSN origin. Based on this analysis, we suggest SN 2019ehk is another candidate for a low-mass He star explosion. It might create a double NS binary, but with a wide separation. These candidates for low-mass stripped envelope SNe, including ultra-stripped envelope SN candidates, seem to form a subpopulation among Ca-rich transients, associated with young population. We propose that the key to distinguishing this population is the early first peak in their light curves., Japan Society for the Promotion of Science (JSPS) through KAKENHI [JP17H02864, JP18H04585, JP18H05223, JP20H00174, JP20H04737, JP18H03720, JP16H02158]; Japan Society for the Promotion of Science [JP17K14253]; Turkish Scientific and Technical Research Council [TuBTAK-2211C, TuBTAK-2214A]; National Aeronautics and Space Administration, The authors acknowledge Raffaella Margutti, Dan Milisavljevic, and Wynn Jacobson-Galan for stimulating discussion, after their manuscript and this manuscript on SN 2019ehk were both posted on arXiv. The GMOS observation, S19A-051, was conducted via the time exchange program between Gemini and the Subaru Telescope. The FOCAS observation, S19B-055, was conducted at the Subaru Telescope, and the authors thank Kentaro Aoki and the Subaru telescope staff for the observation. This research has made use of the NASA/IPAC Extragalactic Database (NED), which is operated by the Jet Propulsion Laboratory, California Institute of Technology, under contract with the National Aeronautics and Space Administration. This research has made use of the NASA/ IPAC Infrared Science Archive, which is operated by the Jet Propulsion Laboratory, California Institute of Technology, under contract with the National Aeronautics and Space Administration. Keiichi Maeda acknowledges support provided by the Japan Society for the Promotion of Science (JSPS) through KAKENHI Grants JP17H02864, JP18H04585, JP18H05223, JP20H00174, and JP20H04737. Masayuki Yamanaka is supported by the Grants-in-Aid for Young Scientists of the Japan Society for the Promotion of Science (JP17K14253). Koji S. Kawabata acknowledges support provided by the Japan Society for the Promotion of Science (JSPS) through KAKENHI Grant JP18H03720. Umut Burgaz acknowledges support provided by the Turkish Scientific and Technical Research Council (TuBTAK-2211C and 2214A) Tomoki Morokuma acknowledges support provided by the Japan Society for the Promotion of Science (JSPS) through KAKENHI Grants JP16H02158 and JP18H05223.

Published

2021

5. Light-Curve Properties Of Sn 2017Fgc And Hv Sne Ia

Author

Masayuki Yamanaka, Belinda Kalomeni, Tatsuya Nakaoka, Koji S. Kawabata, Miho Kawabata, Keiichi Maeda, Naoki Kawahara, and Umut Burgaz

Subjects

Supernova, FOS: Physical sciences, Astrophysics, Type (model theory), 01 natural sciences, Luminosity, Optical Observations, Sample, Origin, supernovae: general, Models, 0103 physical sciences, Spectral Evolution, Normal velocity, Ejecta, 010303 astronomy & astrophysics, High Energy Astrophysical Phenomena (astro-ph.HE), Physics, Diversity, 010308 nuclear & particles physics, Transients: supernovae, supernovae: individual: SN 2017fgc, Astronomy and Astrophysics, B band, Light curve, Galaxies, 2-Parameter Luminosity Correction, Space and Planetary Science, Infrared Observations, Astrophysics - High Energy Astrophysical Phenomena, V band

Abstract

Photometric and spectroscopic observations of Type Ia supernova (SN) 2017fgc, which cover the period from -12 to + 137 d since the B-band maximum are presented. SN 2017fgc is a photometrically normal SN Ia with the luminosity decline rate, Delta m(15)(B)(true) = 1.10 +/- 0.10 mag. Spectroscopically, it belongs to the high-velocity (HV) SNe Ia group, with the Siii lambda 6355 velocity near the B-band maximum estimated to be 15200 +/- 480 km s(-1). At the epochs around the near-infrared secondary peak, the R and I bands show an excess of similar to 0.2-mag level compared to the light curves of the normal velocity (NV) SNe Ia. Further inspection of the samples of HV and NV SNe Ia indicates that the excess is a generic feature among HV SNe Ia, different from NV SNe Ia. There is also a hint that the excess is seen in the V band, both in SN 2017fgc and other HV SNe Ia, which behaves like a less prominent shoulder in the light curve. The excess is not obvious in the B band (and unknown in the U band), and the colour is consistent with the fiducial SN colour. This might indicate that the excess is attributed to the bolometric luminosity, not in the colour. This excess is less likely caused by external effects, like an echo or change in reddening but could be due to an ionization effect, which reflects an intrinsic, either distinct or continuous, difference in the ejecta properties between HV and NV SNe Ia., Turkish Scientific and Technical Research Council [TUBITAK-2211C, 2214A]; TUBITAK [17BT60-1185, 120F169]; JSPS KAKENHI [JP20H00174, JP20H0473, JP18H04585, JP18H05223, JP17H02864], We acknowledge ESA Gaia, DPAC, and the Photometric Science Alerts Team (http://gsaweb.ast.cam.ac.uk/alerts).Umut Burgaz acknowledges the support provided by the Turkish Scientific and Technical Research Council (TUBITAK-2211C and 2214A). The authors thank TUBITAK for a partial support in using T60 telescope with the project number 17BT60-1185. Keiichi Maeda acknowledges support by JSPS KAKENHI Grant (JP20H00174, JP20H0473, JP18H04585, JP18H05223, and JP17H02864). Belinda Kalomeni acknowledges support by TUBITAK (Project no: 120F169). The authors thank the anonymous referee for her/his valuable comments and suggestions that have significantly improved the manuscript.

Published

2021

6. Spectroscopic and photometric observations of dwarf nova superoutbursts by the 3.8 m telescope Seimei and the Variable Star Network

Author

Nodoka Takeuchi, Charles Galdies, Javier Ruiz, A. M. Zubareva, Sergey Yu. Shugarov, Kenneth Menzies, Geoffrey Stone, Keisuke Isogai, Mariko Kimura, Keiichi Maeda, Igor Kudzej, Daisaku Nogami, Kenta Taguchi, Kosuke Namekata, N. A. Katysheva, Minoru Yamamoto, Shumpei Nagoshi, Roger D. Pickard, Nikolaj V. Pit, Pavol A. Dubovsky, Naoto Kojiguchi, Yasuyuki Wakamatsu, Aleksei A. Sosnovskij, Katsura Matsumoto, Tonny Vanmunster, Seiichiro Kiyota, Momoka Nakagawa, Kirill A. Antonyuk, Sjoerd Dufoer, Shawn Dvorak, Aleksei V. Baklanov, Kenji Hirosawa, Masao Funada, Drahomir Chochol, Ryota Matsumura, Alexandr A. Belinski, Miho Kawabata, Taichi Kato, Oksana I. Antonyuk, Umut Burgaz, Tamás Tordai, Tomas Medulka, Yusuke Tampo, N. P. Ikonnikova, Masanori Mizutani, Soshi Okamoto, Mitsutaka Hiraga, Masaaki Otsuka, Hiroyuki Maehara, Yasuo Sano, Julia V. Babina, Hiroshi Itoh, Yutaka Maeda, Franz-Josef Hambsch, Daiti Fujii, M. A. Burlak, Yuki Zenkou, Elena P. Pavlenko, Stephen M. Brincat, Masaaki Shibata, Masayuki Moriyama, Japan Society for the Promotion of Science, and VEGA Agency (Slovakia)

Subjects

Spiral Shocks, FOS: Physical sciences, Astrophysics, 01 natural sciences, Wz Sge, law.invention, Telescope, Accretion disc, accretion, law, Ursae Majoris, 0103 physical sciences, Ss-Cygni, 010303 astronomy & astrophysics, Dwarf nova, Solar and Stellar Astrophysics (astro-ph.SR), Physics, novae, Cataclysmic variables, 010308 nuclear & particles physics, accretion disks, Period Variations, Astronomy and Astrophysics, Time-Resolved Spectroscopy, Accretion (astrophysics), Astrophysics - Solar and Stellar Astrophysics, Space and Planetary Science, U-Geminorum, Variable star, Eg Cancri, Stars: dwarf novae, dwarf novae [Stars]

Abstract

arXiv:2104.04948v1, et al., We present spectroscopic and photometric observations of 17 dwarf-nova superoutbursts obtained by KOOLS-IFU mounted on the 3.8 m telescope Seimei at the Okayama Observatory of Kyoto University and through the Variable Star Network collaboration (VSNET). Our spectroscopic observations for six outbursts were performed within 1 d of their optical peak. 11 objects (TCP J00590972+3438357, ASASSN-19ado, TCP J06073081−0101501, ZTF20aavnpug, ASASSN-19ady, MASTER OT J061642.05+435617.9, TCP J20034647+1335125, ASASSN-20kv, ASASSN-20kw, MASTER OT J213908.79+161240.2, and ASASSN-20mf) were previously unknown systems, and our observations enabled quick classification of their transient type. These results illustrate that the Seimei telescope has the capability to conduct quick follow-up observations of unknown transients. Our photometric observations yielded that 11 of the objects are WZ Sge-type dwarf novae and their candidates, and the other six are SU UMa-type dwarf novae and their candidates. The He ii 4686 Å emission line was clearly detected among ASASSN-19ado, TCP J06073081−0101501 and MASTER OT J213908.79+161240.2, the association of which with a spiral arm structure in an accretion disk has been suggested in previous studies. Our result suggests that a higher-inclination system shows a stronger emission line of He ii 4686 Å, as well as larger-amplitude early superhumps., Maeda acknowledges support from the Japan Society for the Promotion of Science (JSPS) KAKENHI grant JP18H05223, JP20H00174, and JP20H04737. U. Burgaz acknowledges the support provided by the Turkish Scientific and Technical Research Council (TÜBITAK2211C and 2214A). This work was supported by the project APVV-15-0458 “Interacting binaries - Key for the Understanding of the Universe”. This work was supported by the Slovak Research and Development Agency under the contract No. APVV15-0458 and by the Slovak Academy of Sciences grant VEGA No. 2/0030/21. The authors from Sternberg institute thank the Program of Development of Lomonosov MSU ‘Leading Scientific Schools’. A.A.B, N.P.I. and M.A.B. (SAI MSU) are supported by the Interdisciplinary Scientific and Educational School of Moscow University ’Fundamental and Applied Space Research’. This research was partly supported by the Slovak Academy of Sciences grant VEGA No. 2/0030/21.

Published

2021

7. Gaia 18dvy: A New FUor in the Cygnus OB3 Association

Author

L. Chen, Etienne Bachelet, L. Mészáros, V. Čepas, H. Netzel, Umut Burgaz, B. Seli, K. Vida, Timothy Butterley, R. Bischoff, A. Simon, Péter Ábrahám, András Pál, Z. Kaczmarek, L. Tomasella, Ágnes Kóspál, Yiannis Tsapras, Csaba Kiss, K. Kruszyńska, A. Ordasi, Goran Damljanović, Łukasz Wyrzykowski, M. Maskoliūnas, K. Šiškauskaitė, P. Mikołajczyk, O. Ziółkowska, Elmé Breedt, A. Moór, Rachel Street, Mate Krezinger, Markus Mugrauer, W. Stenglein, Susanne M. Hoffmann, P. Zielinski, József Varga, Ádám Sódor, R. Szakats, E. Varga-Verebélyi, Gábor Marton, M. Hundertmark, Krisztián Sárneczky, L. K. Hardy, Mariusz Gromadzki, Rimvydas Janulis, R. Konyves-Toth, J. M. Carrasco, Felix Hildebrandt, M. Zielinski, J. Zdanavičius, M. Kun, Krzysztof A. Rybicki, E. Szegedi-Elek, S. P. Littlefair, Kirill Sokolovsky, I. Gezer, Attila Bódi, A. Gurgul, E. Pakštienė, Cs. Kalup, N. Ihanec, V. Godunova, C. Andreas, Laszlo Szabados, European Commission, Hungarian Academy of Sciences, National Research, Development and Innovation Office (Hungary), Research Council of Lithuania, Ministry of Education, Science and Technological Development (Serbia), Ministerio de Economía y Competitividad (España), Michigan State University, and Ege Üniversitesi

Subjects

Physics, Protoplanetary disks, Accretion, 010308 nuclear & particles physics, Star formation, media_common.quotation_subject, Kiss, FOS: Physical sciences, Eruptive variable stars, Astronomy and Astrophysics, Astrophysics, 01 natural sciences, Accretion (astrophysics), Machine-readable table, Astrophysics - Solar and Stellar Astrophysics, 13. Climate action, Space and Planetary Science, 0103 physical sciences, 010303 astronomy & astrophysics, Solar and Stellar Astrophysics (astro-ph.SR), media_common

Abstract

Full author list: E. Szegedi-Elek, P. Ábrahám, Ł. Wyrzykowski, M. Kun, Á. Kóspál, L. Chen, G. Marton, A. Moór, C. Kiss, A. Pál, L. Szabados, J. Varga, E. Varga-Verebélyi, C. Andreas, E. Bachelet, R. Bischoff, A. Bódi, E. Breedt, U. Burgaz, T. Butterley, J. M. Carrasco, V. Čepas, G. Damljanovic, I. Gezer, V. Godunova, M. Gromadzki, A. Gurgul, L. Hardy, F. Hildebrandt, S. Hoffmann, M. Hundertmark, N. Ihanec, R. Janulis, Cs. Kalup, Z. Kaczmarek, R. Könyves-Tóth, M. Krezinger, K. Kruszyńska, S. Littlefair, M. Maskoliūnas, L. Mészáros, P. Mikołajczyk, M. Mugrauer, H. Netzel, A. Ordasi, E. Pakštienė, K. A. Rybicki, K. Sárneczky, B. Seli, A. Simon, K. Šiškauskaitė, Á. Sódor, K. V. Sokolovsky2, W. Stenglein, R. Street, R. Szakáts, L. Tomasella, Y. Tsapras, K. Vida, J. Zdanavičius, M. Zieliński, P. Zieliński, and O. Ziółkowska, We present optical-infrared photometric and spectroscopic observations of Gaia 18dvy, located in the Cygnus OB3 association at a distance of 1.88 kpc. Gaia 18dvy was noted by the Gaia alerts system when its light curve exhibited a ⪆4 mag rise in 2018-2019. The brightening was also observable at mid-infared wavelengths. The infrared colors of Gaia 18dvy became bluer as the outburst progressed. Its optical and near-infrared spectroscopic characteristics in the outburst phase are consistent with those of bona fide FU Orionis-type young eruptive stars. The progenitor of the outburst is probably a low-mass K-type star with an optical extinction of ∼3 mag. A radiative transfer modeling of the circumstellar structure, based on the quiescent spectral energy distribution, indicates a disk with a mass of 4 10-3 M o˙. Our simple accretion disk modeling implies that the accretion rate had been exponentially increasing for more than 3 yr until mid-2019, when it reached a peak value of 6.9 10-6 M o˙ yr-1. In many respects, Gaia 18dvy is similar to the FU Ori-type object HBC 722., We thank the anonymous referee, whose questions and comments significantly improved the paper. This project has received funding from the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation program under grant agreement No. 716155 (SACCRED), Lendület LP2018-7/2019 and KEP-7/2018 of the Hungarian Academy of Sciences, GINOP 2.3.2-15-2016-00003 and PD-128360 of the Hungarian National Research, Development and Innovation Office, Polish NCN DAINA grant 2017/27/ L/ST9/03221, European Commission’s Horizon 2020 OPTICON grant 730890, Polish MNiSW grant DIR/WK/2018/12, grant No. S-LL-19-2 of the Research Council of Lithuania, Project No. 176011 “Dynamics and kinematics of celestial bodies and systems” of the Ministry of Education, Science and Technological Development of the Republic of Serbia, DFG priority program SPP 1992 “Exploring the Diversity of Extrasolar Planets” (WA 1047/11-1), the MINECO (Spanish Ministry of Economy) through grant RTI2018-095076-B-C21 (MINECO/FEDER, UE). The Joan Oró Telescope (TJO) of the Montsec Astronomical Observatory (OAdM) is owned by the Catalan Government and is operated by the Institute for Space Studies of Catalonia (IEEC). MG is supported by the Polish NCN MAESTRO grant 2014/14/ A/ST9/00121. We acknowledge ESA Gaia, DPAC, and the Photometric Science Alerts Team. We thank Christina Conner, Megan Davis, Alessandro Dellarovere, Hannah Gallamore, Mira Ghazali, Aaron Kruskie, Dylan Mankel, Jesse Leahy–McGregor, Brandon McIntyre, Barrett Ross, Courtney Wicklund, and Evan Zobel for observing Gaia 18dvy at the Michigan State University Observatory. Based on observations made with the Nordic Optical Telescope, operated by the Nordic Optical Telescope Scientific Association at the Observatorio del Roque de los Muchachos, La Palma, Spain, of the Instituto de Astrofísica de Canarias. Based on observations obtained with telescopes of the University Observatory Jena, which is operated by the Astrophysical Institute of the Friedrich-Schiller-University.

Published

2020

8. SN 2019ein: New Insights into the Similarities and Diversity among High-velocity Type Ia Supernovae

Author

S. Takagi, Masaki Takayama, Masayuki Yamanaka, Kazuya Matsubayashi, M. Kino, Keisuke Isogai, Kenta Taguchi, Daisaku Nogami, Kazuki Shiraishi, Koji S. Kawabata, Hiroki Kimura, Hiroshi Akitaya, Miyako Tozuka, Fumiya Imazato, Kumiko Morihana, Ryo Adachi, Takashi Nagao, Haruki Sugiyama, Tatsuharu Ono, Motoki Oeda, Kazuhiro Sekiguchi, Hiroki Onozato, Hidekazu Hanayama, T. Saito, Jun Takahashi, Noriyuki Katoh, Miho Kawabata, Kota Iida, Mahito Sasada, Ryohei Hosokawa, Takashi Horiuchi, Masafumi Niwano, Masaaki Otsuka, D. Kuroda, K. L. Murata, Kengo Takagi, Tatsuya Nakaoka, Hiroyuki Maehara, Umut Burgaz, Ji-an Jiang, Keiichi Maeda, and Ege Üniversitesi

Subjects

Type Ia supernovae, Physics, Supernova, Supernovae, Space and Planetary Science, High velocity, Astronomy and Astrophysics, Astrophysics, Type (model theory), Diversity (business)

Abstract

We present optical observations of the Type Ia supernova (SN) 2019ein, starting two days after the estimated explosion date. the spectra and light curves show that SN 2019ein belongs to a high-velocity (HV) and broad-line group with a relatively rapid decline in the light curves (Delta m(15)(B) = 1.36 0.02 mag) and a short rise time (15.37 0.55 days). the Si ii lambda 6355 velocity, associated with a photospheric component but not with a detached high-velocity feature, reached similar to 20,000 km s(-1) 12 days before the B-band maximum. the line velocity, however, decreased very rapidly and smoothly toward maximum light, to similar to 13,000 km s(-1), which is relatively low among HV SNe. This indicates that the speed of the spectral evolution of HV SNe Ia is correlated with not only the velocity at maximum light, but also the light-curve decline rate, as is the case for normal-velocity (NV) SNe Ia. Spectral synthesis modeling shows that the outermost layer at >17,000 km s(-1) is well described by an O-Ne-C burning layer extending to at least 25,000 km s(-1), and there is no unburnt carbon below 30,000 km s(-1); these properties are largely consistent with the delayed detonation scenario and are shared with the prototypical HV SN 2002bo despite the large difference in Delta m(15)(B). This structure is strikingly different from that derived for the well-studied NV SN 2011fe. We suggest that the relation between the mass of Ni-56 (or Delta m(15)) and the extent of the O-Ne-C burning layer provides an important constraint on the explosion mechanism(s) of HV and NV SNe., Google Summer of Code initiative; ESA's Summer of Code in Space program; Optical and Near-infrared Astronomy Inter-University Cooperation Program; Ministry of Education, Culture, Sports, Science and Technology (MEXT) of JapanMinistry of Education, Culture, Sports, Science and Technology, Japan (MEXT) [17H06362]; Institute for Cosmic Ray Research (ICRR); JSPS KAKENHIMinistry of Education, Culture, Sports, Science and Technology, Japan (MEXT)Japan Society for the Promotion of ScienceGrants-in-Aid for Scientific Research (KAKENHI) [19K23461, 18H04585, 18H05223, 17H02864, 17K14253]; Turkish Scientific and Technical Research CouncilTurkiye Bilimsel ve Teknolojik Arastirma Kurumu (TUBITAK) [TuBITAK-2211C, TuBITAK-2214A], This research has made use of the NASA/IPAC Extragalactic Database (NED), which is operated by the Jet Propulsion Laboratory, California Institute of Technology, under contract with the National Aeronautics and Space Administration. the spectral data of comparison SNe awere downloaded from the SUSPECT25 (Richardson et al. 2001) and WISeREP26 (Yaron & Gal-Yam 2012) databases. This research has made use of data obtained from the High Energy Astrophysics Science Archive Research Center (HEASARC), a service of the Astrophysics Science Division at NASA/GSFC and of the Smithsonian Astrophysical Observatory's High Energy Astrophysics Division. This research made use of TARDIS, a community-developed software package for spectral synthesis in supernovae (Kerzendorf & Sim 2014; Kerzendorf et al. 2019). the development of TARDIS received support from the Google Summer of Code initiative and from ESA's Summer of Code in Space program. TARDIS makes extensive use of Astropy and PyNE. This work is supported by the Optical and Near-infrared Astronomy Inter-University Cooperation Program. Part of this work was financially supported by Grants-in-Aid for Scientific Research 17H06362 from the Ministry of Education, Culture, Sports, Science and Technology (MEXT) of Japan. This work was supported by the joint research program of the Institute for Cosmic Ray Research (ICRR). M.K. acknowledges support by JSPS KAKENHI Grant (19K23461). K.M. acknowledges support by JSPS KAKENHI Grant (18H04585, 18H05223, 17H02864). M.Y. is partly supported by JSPS KAKENHI Grant (17K14253). U. B. acknowledges the support provided by the Turkish Scientific and Technical Research Council (TuBITAK-2211C and TuBITAK-2214A).

Published

2020