SN 2012P , the SIMBAD biblio

SN 2012P , the SIMBAD biblio (45 results) C.D.S. - SIMBAD4 rel 1.8 - 2024.04.19CEST15:54:03

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Bibcode/DOI Score in Title|Abstract|
Keywords 		in a table in teXt, Caption, ... Nb occurence Nb objects in ref Citations
(from ADS) 		Title First 3 Authors
2012CBET.2993....1D 39 T       O X         3 3 Supernova 2012P in NGC 5806 = PSN J14595904+0153251. DIMAI A., BRIGANTI F. and BRIMACOMBE J.
2012CBET.2993....2B 39 T       O X         2 1 Supernova 2012P in NGC 5806 = PSN J14595904+0153251. BORSATO L., NASCIMBENI V., BENETTI S., et al.
2013MNRAS.436..774E viz 16       D               1 250 249 The death of massive stars - II. Observational constraints on the progenitors of type Ibc supernovae. ELDRIDGE J.J., FRASER M., SMARTT S.J., et al.
2014MNRAS.439.1807B 39           X         1 27 41 SN 2011hs: a fast and faint Type IIb supernova from a supergiant progenitor. BUFANO F., PIGNATA G., BERSTEN M., et al.
2014MNRAS.440.1067R 39           X         1 60 15 The nature of supernovae 2010O and 2010P in Arp 299 - II. Radio emission. ROMERO-CANIZALES C., HERRERO-ILLANA R., PEREZ-TORRES M.A., et al.
2012ATel.3881....1A 155 T         X         3 2 3
PTF12os /
PSN J14595904+0153251 is a Type IIb Supernova. 		ARCAVI I., GAL-YAM A., BEN-AMI S., et al.
2012ATel.3882....1S 77 T                   1 2 2 VLA and Swift XRT Observations of PTF 12os in NGC 5806. STOCKDALE C.J., IMMLER S., HORESH A., et al.
2012ATel.3884....1V 232 T         X         5 3 3 A Search for the progenitor of Supernova PTF 12os (
PSN J14595904+0153251). 		VAN DYK S.D., GAL-YAM A., ARCAVI I., et al.
2012ATel.3885....1H 116 T         X         2 1 ~ CARMA observation of supernova PTF 12os. HORESH A., CARPENTER J. and KULKARNI S.R.
2015ApJ...811..117S viz 596   K A D     X C       15 30 16 Search for precursor eruptions among type IIb supernovae. STROTJOHANN N.L., OFEK E.O., GAL-YAM A., et al.
2016MNRAS.456.2848H viz 16       D               1 919 37 Supernovae and their host galaxies - III. The impact of bars and bulges on the radial distribution of supernovae in disc galaxies. HAKOBYAN A.A., KARAPETYAN A.G., BARKHUDARYAN L.V., et al.
2016MNRAS.458.2973P 218       D     X C       5 90 117 The bolometric light curves and physical parameters of stripped-envelope supernovae. PRENTICE S.J., MAZZALI P.A., PIAN E., et al.
2016A&A...593A..68F viz 8909 T K A S   X C       219 9 138
PTF12os and iPTF13bvn Two stripped-envelope supernovae from low-mass progenitors in NGC 5806. 		FREMLING C., SOLLERMAN J., TADDIA F., et al.
2017ApJ...837...62V 57       D     X         2 34 7 Searching for the expelled hydrogen envelope in Type I supernovae via late-time Hα emission. VINKO J., POOLEY D., SILVERMAN J.M., et al.
2017ApJ...837..167J 81           X         2 39 12 SPIRITS 15c and SPIRITS 14buu: two obscured supernovae in the nearby star-forming galaxy IC 2163. JENCSON J.E., KASLIWAL M.M., JOHANSSON J., et al.
2018MNRAS.476.2629M 675       D S   X C F     14 52 15 The very young resolved stellar populations around stripped-envelope supernovae. MAUND J.R.
2018A&A...613A..35K 99       D       C       4 171 55 Constraints on core-collapse supernova progenitors from explosion site integral field spectroscopy. KUNCARAYAKTI H., ANDERSON J.P., GALBANY L., et al.
2018A&A...618A..37F viz 165           X C       3 19 10 Oxygen and helium in stripped-envelope supernovae. FREMLING C., SOLLERMAN J., KASLIWAL M.M., et al.
2018MNRAS.481..566K viz 16       D               1 365 4 The impact of spiral density waves on the distribution of supernovae. KARAPETYAN A.G., HAKOBYAN A.A., BARKHUDARYAN L.V., et al.
2019MNRAS.485.1559P 17       D               1 106 89 Investigating the properties of stripped-envelope supernovae: what are the implications for their progenitors? PRENTICE S.J., ASHALL C., JAMES P.A., et al.
2019ApJ...878L...5F 84           X         2 9 6 ZTF18aalrxas: a Type IIb supernova from a very extended low-mass progenitor. FREMLING C., KO H., DUGAS A., et al.
2019NatAs...3..434F 226       D     X C       5 51 22 A hybrid envelope-stripping mechanism for massive stars from supernova nebular spectroscopy. FANG Q., MAEDA K., KUNCARAYAKTI H., et al.
2019ApJ...880L..22W 17       D               1 31 ~ Optimal classification and outlier detection for stripped-envelope core-collapse supernovae. WILLIAMSON M., MODJAZ M. and BIANCO F.B.
2019ApJ...883..120P 17       D               1 30 ~ Interaction of SN Ib 2004dk with a previously expelled envelope. POOLEY D., WHEELER J.C., VINKO J., et al.
2019MNRAS.490.4515S 602       D     X C F     13 24 ~ The 50-100 pc scale parent stellar populations of Type II supernovae and limitations of single star evolution models. SCHADY P., ELDRIDGE J.J., ANDERSON J., et al.
2020ApJ...900...46Y viz 86             C       1 33 40 SN2019dge: a helium-rich ultra-stripped envelope supernova. YAO Y., DE K., KASLIWAL M.M., et al.
2020ApJ...903...70S 17       D               1 22 ~ Progenitors of Type IIb supernovae. II. Observable properties. SRAVAN N., MARCHANT P., KALOGERA V., et al.
2021MNRAS.501.3122C 17       D               1 116 ~ The delay time distribution of supernovae from integral-field spectroscopy of nearby galaxies. CASTRILLO A., ASCASIBAR Y., GALBANY L., et al.
2021MNRAS.501.5797B 17       D               1 181 ~ Optical and spectral observations and hydrodynamic modelling of type IIb supernova 2017gpn. BALAKINA E.A., PRUZHINSKAYA M.V., MOSKVITIN A.S., et al.
2021MNRAS.504.2253S 2873 T   A D S   X C F     63 9 7 Towards a better understanding of supernova environments: a study of SNe 2004dg and
2012P in NGC 5806 with HST and MUSE. 		SUN N.-C., MAUND J.R., CROWTHER P.A., et al.
2021MNRAS.505.3950G 104       D         F     4 37 ~ Understanding the extreme luminosity of DES14X2fna. GRAYLING M., GUTIERREZ C.P., SULLIVAN M., et al.
2021ApJS..255...29S viz 17       D               1 893 63 The Palomar Transient Factory core-collapse supernova host-galaxy sample. I. Host-galaxy distribution functions and environment dependence of core-collapse supernovae. SCHULZE S., YARON O., SOLLERMAN J., et al.
2022MNRAS.510.3701S 45           X         1 17 15 An environmental analysis of the Type Ib SN 2019yvr and the possible presence of an inflated binary companion. SUN N.-C., MAUND J.R., CROWTHER P.A., et al.
2022MNRAS.512L..66S 45           X         1 20 9 A hot and luminous source at the site of the fast transient AT2018cow at 2-3 yr after its explosion. SUN N.-C., MAUND J.R., CROWTHER P.A., et al.
2022MNRAS.512.1541G 18       D               2 162 ~ Metallicity estimation of core-collapse Supernova H II regions in galaxies within 30 Mpc. GANSS R., PLEDGER J.L., SANSOM A.E., et al.
2022ApJ...928..151F 18       D               1 201 16 Statistical Properties of the Nebular Spectra of 103 Stripped-envelope Core-collapse Supernovae. FANG Q., MAEDA K., KUNCARAYAKTI H., et al.
2022ApJ...925..175S 18       D               4 117 18 Carnegie Supernova Project-II: Near-infrared Spectroscopy of Stripped-envelope Core-collapse Supernovae. SHAHBANDEH M., HSIAO E.Y., ASHALL C., et al.
2022ApJ...931..153S 18       D               1 84 5 Constraints on the Explosion Timescale of Core-collapse Supernovae Based on Systematic Analysis of Light Curves. SAITO S., TANAKA M., SAWADA R., et al.
2022MNRAS.514.1188B 108       D     X         3 45 14 Nothing to see here: failed supernovae are faint or rare. BYRNE R.A. and FRASER M.
2023MNRAS.521.2860S 47           X         1 94 9 A UV census of the environments of stripped-envelope supernovae. SUN N.-C., MAUND J.R. and CROWTHER P.A.
2023ApJ...949L..12A 19       D               1 56 3 Constraining High-energy Neutrino Emission from Supernovae with IceCube. ABBASI R., ACKERMANN M., ADAMS J., et al.
2023ApJ...955...71R 19       D               1 65 ~ The Iron Yield of Core-collapse Supernovae. RODRIGUEZ O., MAOZ D. and NAKAR E.
2023A&A...678A..87K 59 ~ A population of Type Ibc supernovae with massive progenitors Broad lightcurves not uncommon in (i)PTF. KARAMEHMETOGLU E., SOLLERMAN J., TADDIA F., et al.
2024ApJ...960...72S 50           X         1 94 ~ Search for Supernova Progenitor Stars with ZTF and LSST. STROTJOHANN N.L., OFEK E.O., GAL-YAM A., et al.
2024NatAs...8..111F 20       D               2 85 ~ An aspherical distribution for the explosive burning ash of core-collapse supernovae. FANG Q., MAEDA K., KUNCARAYAKTI H., et al.

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