The diversity of strongly interacting Type IIn supernovae

被引:0
作者
Salmaso, I. [1 ]
Cappellaro, E. [1 ]
Tartaglia, L. [1 ,2 ]
Anderson, J. P. [3 ,4 ]
Benetti, S. [1 ]
Bronikowski, M. [5 ]
Cai, Y. Z. [6 ,7 ,8 ]
Charalampopoulos, P. [9 ]
Chen, T. -w. [10 ]
Concepcion, E. [5 ]
Elias-Rosa, N. [1 ,11 ]
Galbany, L. [11 ,12 ]
Gromadzki, M. [13 ]
Gutierrez, C. P. [11 ,12 ]
Kankare, E. [9 ]
Lundqvist, P. [14 ]
Matilainen, K. [15 ,16 ]
Mazzali, P. A. [17 ,18 ]
Moran, S. [16 ]
Mueller-Bravo, T. E. [11 ,12 ]
Nicholl, M. [19 ]
Pastorello, A. [1 ]
Pessi, P. J. [14 ]
Pessi, T. [20 ]
Petrushevska, T. [5 ]
Pignata, G. [21 ]
Reguitti, A. [1 ,22 ]
Sollerman, J. [14 ]
Srivastav, S. [23 ]
Stritzinger, M. [24 ]
Tomasella, L. [1 ]
Valerin, G. [1 ]
机构
[1] INAF Osservatorio Astron Padova, Vicolo Osservatorio 5, I-35122 Padua, Italy
[2] INAF Osservatorio Astron Abruzzo, Via M Maggini Snc, I-64100 Teramo, Italy
[3] European Southern Observ, Alonso Cordova 3107,Casilla 19, Santiago, Chile
[4] Millennium Inst Astrophys MAS, Nuncio Monsenor Sotero Sanz 100,Off 104, Santiago, Chile
[5] Univ Nova Gorica, Ctr Astrophys & Cosmol, Vipavska 11c, Ajdovscina 5270, Slovenia
[6] Chinese Acad Sci, Yunnan Observ, Kunming 650216, Peoples R China
[7] Int Ctr Supernovae, Yunnan Key Lab, Kunming 650216, Peoples R China
[8] Chinese Acad Sci, Key Lab Struct & Evolut Celestial Objects, Kunming 650216, Peoples R China
[9] Univ Turku, Dept Phys & Astron, Vesilinnantie 5, Turku 20500, Finland
[10] Natl Cent Univ, Grad Inst Astron, 300 Jhongda Rd, Zhongli 32001, Taiwan
[11] Campus UAB, CSIC, Inst Space Sci ICE, Carrer Can Magrans S-N, Barcelona 08193, Spain
[12] Inst Estudis Espacials Catalunya IEEC, Castelldefels 08860, Barcelona, Spain
[13] Univ Warsaw, Astron Observ, Al Ujazdowskie 4, PL-00478 Warsaw, Poland
[14] Stockholm Univ, Oskar Klein Ctr, Dept Astron, AlbaNova, S-10691 Stockholm, Sweden
[15] Aarhus Univ, Nord Opt Telescope, Rambla Jose Ana Fernandez Perez 7,Local 5, E-38711 San Antonio Brena Baja, Santa Cruz De T, Spain
[16] Univ Turku, Dept Phys & Astron, Tuorla Observ, Vesilinnantie 5, Turku 20014, Finland
[17] Liverpool John Moores Univ, Astrophys Res Inst, IC2, 146 Brownlow Hill, Liverpool L3 5RF, England
[18] Max Planck Inst Astrophys, Karl Schwarzschild Str 1, D-85741 Garching, Germany
[19] Queens Univ Belfast, Astrophys Res Ctr, Sch Math & Phys, Belfast BT7 1NN, North Ireland
[20] Univ Diego Portales, Fac Ingn & Ciencias, Inst Estudios Astrofis, Av Ejercito Libertador 441, Santiago, Chile
[21] Univ Tarapaca, Inst Alta Invest, Casilla 7D, Arica, Chile
[22] INAF, Osservatorio Astron Brera, Via E Bianchi 46, I-23807 Merate, LC, Italy
[23] Univ Oxford, Astrophys Sub Dept, Dept Phys, Keble Rd, Oxford OX1 3RH, England
[24] Aarhus Univ, Dept Phys & Astron, NY Munkegade 120, DK-8000 Aarhus C, Denmark
来源
ASTRONOMY & ASTROPHYSICS | 2025年 / 695卷
基金
美国国家航空航天局; 欧洲研究理事会; 中国国家自然科学基金; 英国科学技术设施理事会; 欧盟地平线“2020”; 美国国家科学基金会;
关键词
neutrinos; supernovae: general; supernovae: individual: 2021acya; supernovae: individual: 2021adxl; supernovae: individual: 2022qml; supernovae: individual: 2022wed; GAMMA-RAY BURST; CIRCUMSTELLAR INTERACTION; SUPERLUMINOUS SUPERNOVAE; SN; 2010JL; PRESUPERNOVA EVOLUTION; STELLAR MASS; LIGHT CURVES; EMISSION; DUST; SPECTRA;
D O I
10.1051/0004-6361/202451764
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
Context. At late stages, massive stars experience strong mass-loss rates, losing their external layers and thus producing a dense H-rich circumstellar medium (CSM). After the explosion of a massive star, the collision and continued interaction of the supernova (SN) ejecta with the CSM power the SN light curve through the conversion of kinetic energy into radiation. When the interaction is strong, the light curve shows a broad peak and high luminosity that lasts for several months. For these SNe, the spectral evolution is also slower compared to non-interacting SNe. Notably, energetic shocks between the ejecta and the CSM create the ideal conditions for particle acceleration and the production of high-energy (HE) neutrinos above 1 TeV. Aims. We study four strongly interacting Type IIn SNe, 2021acya, 2021adxl, 2022qml, and 2022wed, in order to highlight their peculiar characteristics, derive the kinetic energy of their explosion and the characteristics of the CSM, infer clues on the possible progenitors and their environment, and relate them to the production of HE neutrinos. Methods. We analysed spectro-photometric data of a sample of interacting SNe to determine their common characteristics and derive the physical properties (radii and masses) of the CSM and the ejecta kinetic energies and compare them to HE neutrino production models. Results. The SNe analysed in this sample exploded in dwarf star-forming galaxies, and they are consistent with energetic explosions and strong interaction with the surrounding CSM. For SNe 2021acya and 2022wed, we find high CSM masses and mass-loss rates, linking them to very massive progenitors. For SN 2021adxl, the spectral analysis and less extreme CSM mass suggest a stripped-envelope massive star as a possible progenitor. SN 2022qml is marginally consistent with being a Type Ia thermonuclear explosion embedded in a dense CSM. The mass-loss rates for all the SNe are consistent with the expulsion of several solar masses of material during eruptive episodes in the last few decades before the explosion. Finally, we find that the SNe in our sample are marginally consistent with HE neutrino production.
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页数:23
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