2019MNRAS.485.1559P

Query : 2019MNRAS.485.1559P

2019MNRAS.485.1559P - Mon. Not. R. Astron. Soc., 485, 1559-1578 (2019/May-2)

Investigating the properties of stripped-envelope supernovae: what are the implications for their progenitors?

PRENTICE S.J., ASHALL C., JAMES P.A., SHORT L., MAZZALI P.A., BERSIER D., CROWTHER P.A., BARBARINO C., CHEN T.-W., COPPERWHEAT C.M., DARNLEY M.J., DENNEAU L., ELIAS-ROSA N., FRASER M., GALBANY L., GAL-YAM A., HARMANEN J., HOWELL D.A., HOSSEINZADEH G., INSERRA C., KANKARE E., KARAMEHMETOGLU E., LAMB G.P., LIMONGI M., MAGUIRE K., McCULLY C., OLIVARES F.E., PIASCIK A.S., PIGNATA G., REICHART D.E., REST A., REYNOLDS T., RODRIGUEZ O., SAARIO J.L.O., SCHULZE S., SMARTT S.J., SMITH K.W., SOLLERMAN J., STALDER B., SULLIVAN M., TADDIA F., VALENTI S., VERGANI S.D., WILLIAMS S.C. and YOUNG D.R.

Abstract (from CDS):

We present observations and analysis of 18 stripped-envelope supernovae observed during 2013-2018. This sample consists of five H/He-rich SNe, six H-poor/He-rich SNe, three narrow lined SNe Ic, and four broad lined SNe Ic. The peak luminosity and characteristic time-scales of the bolometric light curves are calculated, and the light curves modelled to derive 56Ni and ejecta masses (MNi and Mej). Additionally, the temperature evolution and spectral line velocity curves of each SN are examined. Analysis of the [O I] line in the nebular phase of eight SNe suggests their progenitors had initial masses <20 M. The bolometric light curve properties are examined in combination with those of other SE events from the literature. The resulting data set gives the Mej distribution for 80 SE-SNe, the largest such sample in the literature to date, and shows that SNe Ib have the lowest median Mej, followed by narrow-lined SNe Ic, H/He-rich SNe, broad-lined SNe Ic, and finally gamma-ray burst SNe. SNe Ic-6/7 show the largest spread of Mej ranging from ∼1.2-11 M, considerably greater than any other subtype. For all SE-SNe <Mej> = 2.8 ± 1.5 M which further strengthens the evidence that SE-SNe arise from low-mass progenitors which are typically <5 M at the time of explosion, again suggesting MZAMS <25 M. The low <Mej> and lack of clear bimodality in the distribution implies <30 M progenitors and that envelope stripping via binary interaction is the dominant evolutionary pathway of these SNe.

Abstract Copyright: © 2018 The Author(s) Published by Oxford University Press on behalf of the Royal Astronomical Society

Journal keyword(s): Supernovae: general

Status at CDS : Large table(s) will be appraised for possible ingestion in VizieR.

Simbad objects: 106

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Number of rows : 106
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 2007kj SN* 00 01 19.58 +13 06 30.6     17.4     SNIb 30 1
2 SN 2016frp SN* 00 21 32.540 -05 57 24.29           SNIb 4 0
3 SN 2007qx SN* 00 27 41.78 +01 13 59.7           SNIb 11 1
4 SN 2004fe SN* 00 30 11.27 +02 05 23.5     18.1     SNIc 51 1
5 SN 2006ep SN* 00 41 24.88 +25 29 46.7     17.8     SNIb 44 1
6 SN 2011kl SN* 00 57 22.64 -46 48 03.6           SNSLSN 230 1
7 SN 2006jo SN* 01 23 14.72 -00 19 46.7           SNIb 22 1
8 SN 2016gkg SN* 01 34 14.46 -29 26 25.0           SNIIb 91 0
9 SN 2002ap SN* 01 36 23.85 +15 45 13.2   13.11 14.54     SNIc-BL 563 1
10 SN 2005hg SN* 01 55 41.87 +46 47 47.4     18.6     SNIb 37 1
11 SN 2015ap SN* 02 05 13.32 +06 06 08.4           SNIb 17 1
12 IC 1776 AG? 02 05 15.242 +06 06 24.92   14.4       ~ 40 0
13 SN 2011fu SN* 02 08 21.40 +41 29 12.3           SNII 56 1
14 SN 2015fn SN* 02 30 20.05 +37 14 06.7           SNIc 43 0
15 SN 2006fo SN* 02 32 38.89 +00 37 03.0           SNIb 46 1
16 SN 2004dn SN* 02 35 37.30 +37 37 54.2     17.5     SNIc 26 1
17 SN 2009iz SN* 02 42 15.41 +42 23 50.1           SNIb 25 1
18 SN 2007gr SN* 02 43 27.98 +37 20 44.7       12.77   SNIc 235 1
19 SN 2007Y SN* 03 02 35.92 -22 53 50.1     17.5     SNIb 118 1
20 SN 2006aj SN* 03 21 39.670 +16 52 02.27 17.96 19.11 17.40     SNIc-BL 940 1
21 SN 2006nx SN* 03 33 30.63 -00 40 38.2           SNIb/c 30 1
22 SN 2017gpn SN* 03 37 44.97 +72 31 59.0           SNIIb 8 0
23 SN 2003bg SN* 04 10 59.43 -31 24 50.4     15.0     SNIc 154 1
24 NGC 1531 GiP 04 11 59.329 -32 51 02.85   13.11   12.12   ~ 62 0
25 NGC 1532 GiP 04 12 04.3612491792 -32 52 26.960041056   10.65   9.34 10.4 ~ 149 0
26 SN 2016iae SN* 04 12 05.530 -32 51 44.75           SNIc 14 0
27 SN 2016ija SN* 04 12 07.640 -32 51 10.57           SNII 19 0
28 SN 1981A SN* 04 12 10 -32 52.2   13.0 13.0     SNII 19 1
29 SN 2012ap SN* 05 00 13.72 -03 20 51.2           SNIc 76 2
30 SN 2004gq SN* 05 12 04.81 -15 40 54.2     15.5     SNIb 93 1
31 SN 2016jca SN* 06 06 51.36 -26 47 29.7           SNIc 107 0
32 SN 2017ifh SN* 06 35 03.560 +50 26 27.90           SNIIb 3 0
33 SN 2010bh SN* 07 10 30.63 -56 15 19.7           SNIc 287 1
34 SN 2017hyh SN* 07 10 41.07 +06 27 41.4           SNIIb 6 0
35 LEDA 1788023 G 07 47 02.295 +26 46 35.34           ~ 16 0
36 SN 2017ixz SN* 07 47 03.03 +26 46 25.8           SNIIb 6 0
37 SN 1997ef SN* 07 57 02.87 +49 33 41.3     16.5     SNIc-BL 270 1
38 SN 2005mf SN* 09 08 42.33 +44 48 51.4     17.4     SNIc 28 1
39 SN 2008D SN* 09 09 30.625 +33 08 20.16     17.5     SNIb 404 1
40 SN 2007uy SN* 09 09 35.40 +33 07 09.9     17.2     SNIbpec 93 1
41 SN 2006T SN* 09 54 30.21 -25 42 29.3     17.2     SNIIb 61 1
42 SN 1993J SN* 09 55 24.77476 +69 01 13.7026   10.8 12.0     SNIIb 1415 1
43 M 82 AGN 09 55 52.430 +69 40 46.93 9.61 9.30 8.41     ~ 5854 6
44 SN 2007ag SN* 10 01 35.99 +21 36 42.0     18.0     SNIb 23 1
45 SN 2005bf SN* 10 23 56.99 -03 11 29.3     18.0     SNIb 203 1
46 SN 2009bb SN* 10 31 33.92 -39 57 28.2           SNIc 168 1
47 SN 2013ge SN* 10 34 48.46 +21 39 41.9           SNIc 53 1
48 SN 2003dh SN* 10 44 50.030 +21 31 18.15     16.2     SNIcpec 1208 1
49 SN 2018ie SN* 10 54 01.060 -16 01 21.40           SNIc 10 0
50 SN 1996cb SN* 11 03 41.98 +28 54 13.7   14.22       SNIIb 112 1
51 SN 2010ah SN* 11 44 02.99 +55 41 27.6           SNIc 51 1
52 SN 2017ein SN* 11 52 53.26 +44 07 26.2           SNIc 52 0
53 SN 2004aw SN* 11 57 50.24 +25 15 55.1   18.06       SNIc 200 1
54 SN 2005kl SN* 12 24 35.68 +39 23 03.5     14.6     SNIc 41 1
55 SN 2013df SN* 12 26 29.33 +31 13 38.3           SNIIb 113 1
56 SN 2008ax SN* 12 30 40.80 +41 38 16.1   23.6 23.5 14.1 22.6 SNIIb 259 1
57 CRTS CSS120125 J124045+125321 SN* 12 40 44.82840 +12 53 21.5700           SNIc 11 0
58 SN 2017dcc SN* 12 49 04.88 -12 12 22.6           SNIc 6 0
59 SN 2008aq SN* 12 50 30.36 -10 52 01.3     16.3     SNIIb 47 1
60 SN 2011bm SN* 12 56 53.89 +22 22 28.2           SNIc 64 1
61 SN 2005az SN* 13 05 46.97 +27 44 08.4     17.4     SNIc 45 1
62 SN 2007C SN* 13 08 49.30 -06 47 01.0 18.1 17.1 15.9     SNIb 57 1
63 SN 2016jdw SN* 13 16 19.620 +30 40 32.67           SNIb 6 0
64 SN 1994I SN* 13 29 54.072 +47 11 30.50     12.9     SNIc 625 1
65 SN 2011dh SN* 13 30 05.10555 +47 10 10.9227           SNIIb 387 1
66 SN 2018cbz SN* 13 41 18.610 -04 20 46.54           SNIc 3 0
67 SN 2010do SN* 13 57 28.11 +06 05 48.5           SNIc 13 1
68 NGC 5374 rG 13 57 29.6301294792 +06 05 49.187588172   13.7       ~ 85 0
69 SN 2003bl SN* 13 57 30.65 +06 05 36.4     18.4     SNII 27 1
70 SN 2016P SN* 13 57 31.13 +06 05 51.6           SNIc 10 0
71 IC 4383 GiG 14 12 12.7066631952 +15 52 08.156334396   15.4       ~ 22 1
72 SN 2013bb SN* 14 12 13.96 +15 50 31.5           SNIIb 14 1
73 UGC 9086 AG? 14 12 15.522 +15 52 45.86   15.5       ~ 25 1
74 NGC 5504 GiG 14 12 15.8080947240 +15 50 30.967322136   13.9       ~ 48 0
75 SN 2012P SN* 14 59 59.04 +01 53 24.4           SNIb/c 45 1
76 iPTF 13bvn SN* 15 00 00.152 +01 52 53.17           SNIb 171 0
77 SN 2009er SN* 15 39 29.84 +24 26 05.3           SNIbpec 23 1
78 SN 2010as SN* 15 49 49.23 -29 23 09.7           SNIb/c 33 1
79 SN 2010mj SN* 15 54 57.06 +53 46 19.0           ~ 5 0
80 SN 2017bgu SN* 16 55 59.470 +42 33 36.01           SNIb 7 0
81 SN 2007cl SN* 17 48 21.19 +54 09 05.2     17.6     SNIc 23 1
82 SN 2008bo SN* 18 19 54.34 +74 34 20.9           SNIIb 56 1
83 SN 1998bw SN* 19 35 03.17 -52 50 46.1   14.09       SNIc 1820 2
84 SN 2007ms SN* 20 32 18.34 -01 00 53.1           SNIIpec 12 1
85 SN 2011ei SN* 20 34 22.62 -31 58 23.6           SNIIb 38 1
86 SN 2006fe SN* 20 52 09.0 -00 30 39           SNIc 13 1
87 SN 2013ek SN* 20 57 53.90 -51 52 24.5           SNIb 8 0
88 SN 2012im SN* 20 57 53.92 -51 52 24.8           SNIc 3 0
89 NGC 6984 Sy2 20 57 53.9873335608 -51 52 15.058670700   13.19 12.65 12.22   ~ 54 0
90 SN 2016coi SN* 21 59 04.14 +18 11 10.5           SNIc 56 0
91 PTF 11klg SN* 22 07 09.92 +06 29 08.7           SNIc 10 0
92 LSQ 12dwl SN* 22 12 41.53 +00 30 43.1           SNIc 50 1
93 PTF 10vgv SN* 22 16 01.17 +40 52 03.3           SNIc 27 0
94 SN 1999ex SN* 22 16 07.27 -36 50 53.7   17.35       SNIb 141 2
95 SN 2006lc SN* 22 44 24.48 -00 09 53.5 18.3 18.3 17.2     SNIb 47 1
96 SN 2006el SN* 22 47 38.50 +39 52 27.6     18.2     SNIIb 31 1
97 SN 2011hs SN* 22 57 11.77 -43 23 04.8           SNIIb 50 1
98 SN 2001ig SN* 22 57 30.69 -41 02 25.9     14.5     SNIIb 173 1
99 SN 2015ah SN* 23 00 24.63 +01 37 36.8           SNIb: 17 1
100 SN 2009jf SN* 23 04 52.98 +12 19 59.5           SNIb 106 1
101 PTF 10qif SN* 23 07 15.01420 +11 18 57.4751           ~ 3 0
102 SN 2007ru SN* 23 07 23.19 +43 35 34.1     17.5     SNIc-BL 48 1
103 SN 2003jd SN* 23 21 03.38 -04 53 45.5   16.34       SNIc-BL 139 1
104 IC 5325 Sy2 23 28 43.4210245680 -41 19 59.690746920 11.80 11.89 11.27 10.73 11.5 ~ 105 1
105 SN 2013F SN* 23 28 45.03 -41 19 56.2           SNIb/c 7 1
106 SN 1999dn SN* 23 36 14.70 +02 09 08.8     16.0     SNIb 109 1

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