2018ApJ...865..149J

Query : 2018ApJ...865..149J

2018ApJ...865..149J - Astrophys. J., 865, 149-149 (2018/October-1)

Surface radioactivity or interactions? Multiple origins of early-excess Type Ia supernovae and associated subclasses.

JIANG J.-A., DOI M., MAEDA K. and SHIGEYAMA T.

Abstract (from CDS):

Early-phase Type Ia supernovae (SNe Ia), especially those with luminosity enhancement within the first few days of explosions ("early-excess SNe Ia"), play an irreplaceable role in addressing the long-standing progenitor and explosion issue of SNe Ia. In this paper, we systematically investigate 11 early-excess SNe Ia from subluminous to luminous subclasses. Eight of them are selected from 23 SNe Ia with extremely early-phase optical light curves ("golden" early-phase SNe Ia), and three of them are selected from 40 SNe Ia (including 14 golden samples) with early-phase UV/NUV light curves. We found that previously discovered early-excess SNe Ia show a clear preference for specific SN Ia subclasses. In particular, the early-excess feature shown in all six luminous (91T- and 99aa-like) SNe Ia is in conflict with the viewing angle dependence predicted by the companion-ejecta interaction scenario. Instead, such a high early-excess fraction is likely related to the explosion physics of luminous SNe Ia; i.e., a more efficient detonation happening in the progenitor of luminous SNe Ia may consequently account for the early-excess feature powered by the radiation from a 56Ni-abundant outer layer. The diversity of early-excess features shown in different SN Ia subclasses suggests multiple origins of the discovered early-excess SNe Ia, challenging their applicability as a robust progenitor indicator. Further understanding of the early-excess diversity relies not only on multiband photometry and prompt-response spectroscopy of individual early-excess SNe Ia but also on investigations of the general early-phase light-curve behavior of each SN Ia subclass, which can be realized through ongoing/forthcoming transient survey projects in the near future.

Abstract Copyright: © 2018. The American Astronomical Society. All rights reserved.

Journal keyword(s): supernovae: general

Simbad objects: 54

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Number of rows : 54
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 2007if SN* 01 10 51.37 +15 27 39.9   23.3 19.5     SNIap 129 1
2 SN 2008A SN* 01 38 17.38 +35 22 13.7     17.6     SNIax 63 1
3 iPTF 13ebh SN* 02 21 59.98 +33 16 13.7           SNIa 44 0
4 SN 2015fn SN* 02 30 20.05 +37 14 06.7           SNIc 43 0
5 SN 2009ig SN* 02 38 11.62 -01 18 45.3           SNIa-norm 149 1
6 LSQ 12gpw SN* 03 12 58.0 -11 42 40           SNIapec 13 0
7 LSQ 12hxx SN* 03 19 44.23 -27 00 25.6           SNIa 7 0
8 SN 2006aj SN* 03 21 39.670 +16 52 02.27 17.96 19.11 17.40     SNIc-BL 940 1
9 SN 2012fr SN* 03 33 35.99 -36 07 37.7           SNIa-norm 145 1
10 LSQ 14efd SN* 03 35 38.76 -58 52 38.3           SNII 12 0
11 SN 2013gy SN* 03 42 16.9 -04 43 18           SNIa-norm 41 1
12 iPTF 13dge SN* 05 03 35.08 +01 34 17.4           SNI 11 0
13 SN 2015F SN* 07 36 15.76 -69 30 23.0           SNIa 79 1
14 SN 2011hr SN* 08 54 46.03 +39 32 16.1           SNIa 18 1
15 NGC 2691 AGN 08 54 46.3029605232 +39 32 19.662419904   14.87 14.10     ~ 97 0
16 SN 2008hv SN* 09 07 34.06 +03 23 32.1           SNIa-norm 81 1
17 ASASSN -15uh SN* 09 30 13.694 +69 07 02.54           SNIapec 9 0
18 SN 2010jn SN* 09 37 29.95 +23 09 38.8   17.29 16.85     SNIa 34 1
19 SN 2003W SN* 09 46 49.48 +16 02 37.6     17.3     SNIa 69 1
20 SN 2014J SN* 09 55 42.12 +69 40 25.9           SNIa-norm 408 1
21 LSQ 12hzj SN* 09 59 12.43 -09 00 08.3           SNIa 12 1
22 LSQ 13ry SN* 10 32 48.00 +04 11 51.4           SNIa 10 0
23 SN 2012ht SN* 10 53 22.8 +16 46 35           SNIa-norm 63 1
24 SN 2004aw SN* 11 57 50.24 +25 15 55.1   18.06       SNIc 200 1
25 SN 2016coj SN* 12 08 06.7 +65 10 38           SNIa-norm 33 0
26 SN 2016jhr SN* 12 18 19.850 +00 15 17.38           SNIa 34 0
27 NGC 4424 H2G 12 27 11.5741235616 +09 25 14.330453700   13.1       ~ 359 0
28 SN 2012cg SN* 12 27 12.83 +09 25 13.2           SNIa-norm 191 1
29 SN 1991T SN* 12 34 10.20 +02 39 56.4   11.70 11.51     SNIapec 765 1
30 SN 2015bq SN* 12 35 06.37 +31 14 35.4           SNIa 14 0
31 ASASSN -14lp SN* 12 45 09.1 -00 27 32           SNIa-norm 63 0
32 IC 831 GiG 12 52 44.0677154424 +26 28 13.533922524   15.5       ~ 38 0
33 ASASSN -14bd SN* 12 52 44.8 +26 28 13           SNIa 82 0
34 SN 2011dh SN* 13 30 05.10555 +47 10 10.9227           SNIIb 388 1
35 iPTF 14bdn SN* 13 30 44.88 +32 45 42.4           SNIa 23 0
36 UGC 8503 GiC 13 30 45.062 +32 45 37.99   16.006       ~ 36 0
37 SN 2016bln SN* 13 34 45.6 +13 51 14           SNIa-norm 52 0
38 NGC 5221 IG 13 34 55.909 +13 49 57.14   14.5       ~ 68 0
39 SN 2011fe SN* 14 03 05.711 +54 16 25.22   10.12 10.06     SNIa-norm 672 1
40 SN 2007af SN* 14 22 21.03 -00 23 37.6     15.4     SNIa 164 1
41 SN 2017cbv SN* 14 32 34.420 -44 08 02.74           SNIa 110 0
42 NGC 5643 Sy2 14 32 40.778 -44 10 28.60   11.03 13.60 9.92 10.6 ~ 572 0
43 SN 2017erp SN* 15 09 14.9 -11 20 03           SNIa-norm 37 0
44 NGC 5861 Sy2 15 09 16.09127 -11 19 17.9800   13.34 12.62 11.03 11.5 ~ 167 0
45 SN 2009dc SN* 15 51 12.12 +25 42 28.0           SNIa-norm 164 1
46 SN 2013cv SN* 16 22 43.16 +18 57 35.6           SNIaPec 23 1
47 iPTF 14dpk SN* 16 45 19.35 +40 09 41.3           SNIa 8 0
48 KSN 2011b SN* 19 20 37.540 +38 15 08.34           SNIa 13 0
49 KSN 2012a SN* 19 33 30.1 +45 15 01           SNIa 11 0
50 SN 2012dn SN* 20 23 36.26 -28 16 43.4           SNIa-norm 49 2
51 PTF 10ops SN* 21 47 33.57 +05 51 30.3           SNIa 31 0
52 ESO 108-21 Sy1 22 15 16.699 -65 33 02.46   13.47   12.27 12.9 ~ 34 0
53 SN 2015ak SN* 22 15 19.67 -65 32 53.4           SNIa 8 1
54 SN 2013dy SN* 22 18 17.5 +40 34 09           SNIa-norm 104 0

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