2021A&A...649A.134K

Query : 2021A&A...649A.134K

2021A&A...649A.134K - Astronomy and Astrophysics, volume 649A, 134-134 (2021/5-1)

Core-collapse supernova subtypes in luminous infrared galaxies.

KANKARE E., EFSTATHIOU A., KOTAK R., KOOL E.C., KANGAS T., O'NEILL D., MATTILA S., VAISANEN P., RAMPHUL R., MOGOTSI M., RYDER S.D., PARKER S., REYNOLDS T., FRASER M., PASTORELLO A., CAPPELLARO E., MAZZALI P.A., OCHNER P., TOMASELLA L., TURATTO M., KOTILAINEN J., KUNCARAYAKTI H., PEREZ-TORRES M.A., RANDRIAMANAKOTO Z., ROMERO-CANIZALES C., BERTON M., CARTIER R., CHEN T.-W., GALBANY L., GROMADZKI M., INSERRA C., MAGUIRE K., MORAN S., MULLER-BRAVO T.E., NICHOLL M., REGUITTI A. and YOUNG D.R.

Abstract (from CDS):

The fraction of core-collapse supernovae (CCSNe) occurring in the central regions of galaxies is not well constrained at present. This is partly because large-scale transient surveys operate at optical wavelengths, making it challenging to detect transient sources that occur in regions susceptible to high extinction factors. Here we present the discovery and follow-up observations of two CCSNe that occurred in the luminous infrared galaxy (LIRG) NGC 3256. The first, SN 2018ec, was discovered using the ESO HAWK-I/GRAAL adaptive optics seeing enhancer, and was classified as a Type Ic with a host galaxy extinction of AV=2.1–0.1+0.3mag. The second, AT 2018cux, was discovered during the course of follow-up observations of SN 2018ec, and is consistent with a subluminous Type IIP classification with an AV=2.1±0.4mag of host extinction. A third CCSN, PSN J10275082-4354034 in NGC 3256, was previously reported in 2014, and we recovered the source in late-time archival Hubble Space Telescope imaging. Based on template light curve fitting, we favour a Type IIn classification for it with modest host galaxy extinction of AV=0.3–0.3+0.4mag. We also extend our study with follow-up data of the recent Type IIb SN 2019lqo and Type Ib SN 2020fkb that occurred in the LIRG system Arp 299 with host extinctions of AV=2.1–0.3+0.1 and AV=0.4–0.2+0.1mag, respectively. Motivated by the above, we inspected, for the first time, a sample of 29 CCSNe located within a projected distance of 2.5 kpc from the host galaxy nuclei in a sample of 16 LIRGs. We find, if star formation within these galaxies is modelled assuming a global starburst episode and normal IMF, that there is evidence of a correlation between the starburst age and the CCSN subtype. We infer that the two subgroups of 14 H-poor (Type IIb/Ib/Ic/Ibn) and 15 H-rich (Type II/IIn) CCSNe have different underlying progenitor age distributions, with the H-poor progenitors being younger at 3σ significance. However, we note that the currently available sample sizes of CCSNe and host LIRGs are small, and the statistical comparisons between subgroups do not take into account possible systematic or model errors related to the estimated starburst ages.

Abstract Copyright: © ESO 2021

Journal keyword(s): galaxies: star formation - supernovae: general - galaxies: individual: NGC 3256 - galaxies: individual: Arp 299 - dust, extinction

Simbad objects: 69

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Number of rows : 69
N Identifier Otype ICRS (J2000)
RA 		ICRS (J2000)
DEC 		Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2024 		#notes
1 SN 2010hp SN* 00 18 50.01 -10 21 40.6           SNII 7 1
2 MCG-02-01-052 EmG 00 18 50.152 -10 21 41.49   13 13.60 14.13   ~ 64 3
3 SN 1999gl SN* 00 57 40.07 +43 47 35.6     16.2     SNII 14 1
4 SN 2014dj SN* 00 57 40.18 +43 47 35.1           SNIc 5 1
5 UGC 594 GiP 00 57 40.4224786560 +43 47 32.215596936   14.16 13.94 13.05 11.95 ~ 83 1
6 SN 2013ej SN* 01 36 48.16 +15 45 31.0           SNIIP 200 0
7 SN 2005H SN* 02 09 38.52 -10 08 43.6     15.9     SNII 18 1
8 NGC 838 LIN 02 09 38.562 -10 08 46.12   13.72   12.65   ~ 195 0
9 SN 2007gr SN* 02 43 27.98 +37 20 44.7       12.77   SNIc 237 1
10 NGC 1614 Sy1 04 34 00.027 -08 34 44.57   14.66 13.99     ~ 667 0
11 ZTF19acyfumm ev 04 34 00.060 -08 34 44.47           ~ 1 0
12 SN 1996D SN* 04 34 00.30 -08 34 44.0     18.2     SNIc 28 1
13 SN 2020cuj SN* 04 34 00.530 -08 34 43.46           SNII 1 0
14 SN 2004gq SN* 05 12 04.81 -15 40 54.2     15.5     SNIb 94 1
15 NGC 2207 AG? 06 16 22.0336889136 -21 22 21.759218400   11.48 10.65 10.21 11.9 ~ 289 3
16 SPIRITS14buu ev 06 16 27.20 -21 22 29.2           ~ 7 0
17 IC 2163 AG? 06 16 27.9671433048 -21 22 33.133211832   12.55   11.28   ~ 165 2
18 SPIRITS15c ev 06 16 28.49 -21 22 42.2           ~ 8 0
19 NGC 2146 SBG 06 18 37.710 +78 21 25.27 11.67 11.38 10.59     ~ 721 2
20 SN 2005V SN* 06 18 38.28 +78 21 28.8           SNIb/c 26 1
21 NGC 2388 GiG 07 28 53.4535009080 +33 49 08.554343196   14.7       ~ 135 2
22 SN 2015U SN* 07 28 53.87 +33 49 10.6           SNIbn 35 1
23 2MASX J08370182-4954302 G 08 37 01.827 -49 54 30.27           ~ 59 0
24 SN 2005ip SN* 09 32 06.42 +08 26 44.4 18.1 18.7 18.5     SNII 191 1
25 SN 1993J SN* 09 55 24.77476 +69 01 13.7026   10.8 12.0     SNIIb 1419 1
26 ESO 500-34 Sy2 10 24 31.4324894928 -23 33 10.567872576   14.45 14.21 12.89   ~ 76 0
27 SN 2004gh SN* 10 24 31.60 -23 33 18.4     17.6     SNII 8 1
28 SN 2001db SN* 10 27 50.4 -43 54 21           SNII 16 1
29 SN 2018ec SN* 10 27 50.77 -43 54 06.3           SNIc 9 0
30 PSN J10275082-4354034 SN? 10 27 50.82 -43 54 03.4           ~ 2 0
31 NGC 3256 Sy2 10 27 51.284 -43 54 13.55   11.83 11.33 10.62 11.9 ~ 848 2
32 AT 2018cux SN? 10 27 51.410 -43 54 18.00           ~ 2 0
33 NAME Great Attractor SCG 10 32 -46.0           ~ 558 0
34 SN 2020fkb SN* 11 28 30.436 +58 33 46.78           SNIb 5 0
35 NGC 3690 IG 11 28 31.0 +58 33 41   13.19 12.86     ~ 978 4
36 SN 2010P SN* 11 28 31.38 +58 33 49.3           SNII: 30 1
37 SN 1992bu SN* 11 28 31.5 +58 33 38           SNIb/c? 23 1
38 SN 2019lqo SN* 11 28 32.460 +58 33 44.82           SNII 6 0
39 SN 1998T SN* 11 28 33.14 +58 33 44.0     14.5     SNIb 46 1
40 SN 2005U SN* 11 28 33.22 +58 33 42.5           SNIIb 33 1
41 SN 2010O SN* 11 28 33.86 +58 33 51.6           SNIb 33 1
42 SN 1998S SN* 11 46 06.1 +47 28 55     12.2     SNIIn 463 1
43 NAME Virgo Cluster ClG 12 26 32.1 +12 43 24           ~ 6647 0
44 SN 1999br SN* 13 00 41.80 +02 29 45.8     17.5     SNIIPp 165 1
45 IC 883 SBG 13 20 35.4 +34 08 22   14.8       ~ 400 1
46 SN 2010cu SN* 13 20 35.36 +34 08 22.2           ~ 14 1
47 SN 2011hi SN* 13 20 35.380 +34 08 22.23           SNII 12 1
48 SN 2005cs SN* 13 29 53.37 +47 10 28.2   14.5       SNIIP 408 1
49 SN 2011dh SN* 13 30 05.10555 +47 10 10.9227           SNIIb 391 1
50 AT 2017chi ev 13 52 16.09 +02 06 03.9           ~ 2 0
51 NGC 5331 GiP 13 52 16.289 +02 06 04.18           ~ 90 0
52 SN 2010gk SN* 14 02 35.94 +32 30 30.7           SNIc 10 1
53 NGC 5433 rG 14 02 36.0 +32 30 38   14.0       ~ 91 1
54 SN 2011fe SN* 14 03 05.711 +54 16 25.22   10.12 10.06     SNIa-norm 674 1
55 SN 2001dc SN* 14 51 16.15 +58 59 02.8     18.5     SNIIP 46 1
56 SN 2010as SN* 15 49 49.23 -29 23 09.7           SNIb/c 34 1
57 NGC 6000 Sy2 15 49 49.556 -29 23 12.50   13.02   11.27 12.0 ~ 112 1
58 IRAS 17138-1017 Sy2 17 16 35.83992 -10 20 38.9832   17.43   14.59   ~ 131 0
59 SN 2015cb SN* 17 16 35.840 -10 20 37.48           SNII 2 0
60 SN 2008cs SN* 17 16 35.85 -10 20 43.0           SNII: 17 1
61 SN 2009ap SN* 17 26 43.23 -59 55 57.9           ~ 5 1
62 ESO 138-27 AG? 17 26 43.352 -59 55 55.17   13.74   12.64 13.7 ~ 58 0
63 SN 2013if SN* 18 32 41.100 -34 11 27.24           ~ 4 0
64 AT 2012iz ? 18 32 41.120 -34 11 26.01           SNIIP 1 0
65 LEDA 84885 Sy1 18 32 41.177 -34 11 27.46   15.63   13.66   ~ 130 0
66 SN 2008fq SN* 20 25 06.19 -24 48 27.6           SNII 39 1
67 NGC 6907 AG? 20 25 06.63 -24 48 33.0   11.91 11.30 10.47 11.3 ~ 177 2
68 SN 2008S ev 20 34 45.33 +60 05 58.4   19.89 18.79 17.93   SNIIn? 239 1
69 SN 2004et SN* 20 35 25.33 +60 07 17.7   12.88       SNIIP 489 1

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