SN 2006my , the SIMBAD biblio

SN 2006my , the SIMBAD biblio (57 results) C.D.S. - SIMBAD4 rel 1.8 - 2024.04.14CEST20:40:12


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Title First 3 Authors
2006IAUC.8773....1N 8 2 Supernovae 2006my-2006ne. NAKANO S. and ITAGAKI K.
2006IAUC.8773....2F 7 0 Supernovae 2006my-2006ne. FRIEMAN J. (The Sloan Digital Sky Survey II Collaboration)
2007ApJ...661.1013L 37   K                 42 83 On the progenitors of two type II-p supernovae in the Virgo Cluster. LI W., WANG X., VAN DYK S.D., et al.
2007ApJ...662.1136C 77           X         2 15 68 Optical signatures of circumstellar interaction in type IIP supernovae. CHUGAI N.N., CHEVALIER R.A. and UTROBIN V.P.
2007A&A...476..893S 59           X         1 5 220 Evolution of massive AGB stars. II. model properties at non-solar metallicity and the fate of Super-AGB stars. SIESS L.
2008PASP..120.1259L 2466 T     D     X C       64 2 15 An upper mass limit on a red supergiant progenitor for the type II-Plateau supernova
SN 2006my.
LEONARD D.C., GAL-YAM A., FOX D.B., et al.
2009MNRAS.395.1409S viz 395       D S   X   F     9 294 620 The death of massive stars - I. Observational constraints on the progenitors of type II-P supernovae. SMARTT S.J., ELDRIDGE J.J., CROCKETT R.M., et al.
2010ApJ...708..661D viz 76               F     1 45 54 Type II-P supernovae from the SDSS-II Supernova Survey and the Standardized Candle Method. D'ANDREA C.B., SAKO M., DILDAY B., et al.
2009ARA&A..47...63S 157           X         4 81 964 Progenitors of Core-Collapse Supernovae. SMARTT S.J.
2010ApJ...713.1363C 1335   K A D S   X C       34 23 33 Large late-time asphericities in three type IIP supernovae. CHORNOCK R., FILIPPENKO A.V., LI W., et al.
2010MNRAS.404..981M 551       D     X C F     13 24 132 Optical and near-infrared coverage of SN 2004et: physical parameters and comparison with other type IIP supernovae. MAGUIRE K., DI CARLO E., SMARTT S.J., et al.
2011MNRAS.410.2767C 1613 T K A D S   X C F     39 19 29 On the nature of the progenitors of three type II-p supernovae: 2004et, 2006my and 2006ov. CROCKETT R.M., SMARTT S.J., PASTORELLO A., et al.
2011MNRAS.412.1419L viz 15       D               1 1826 164 Nearby supernova rates from the Lick observatory supernova search – I. The methods and data base. LEAMAN J., LI W., CHORNOCK R., et al.
2011MNRAS.417.1417F 78               F     1 34 80 SN 2009md: another faint supernova from a low-mass progenitor. FRASER M., ERGON M., ELDRIDGE J.J., et al.
2012MNRAS.419.2054W 94       D         F     3 27 88 Circumstellar dust as a solution to the red supergiant supernova progenitor problem. WALMSWELL J.J. and ELDRIDGE J.J.
2012A&A...538A.120L viz 15       D               1 5598 37 A unified supernova catalogue. LENNARZ D., ALTMANN D. and WIEBUSCH C.
2006CBET..727....1N 38 T       O X         1 3 Supernova 2006my in NGC 4651. NAKANO S. and ITAGAKI K.
2006CBET..737....1S 40 T       O X         1 6 Supernovae 2006my in NGC 4651. STANISHEV V. and NIELSEN T.B.
2012MNRAS.424.1372A 15       D               2 283 140 Progenitor mass constraints for core-collapse supernovae from correlations with host galaxy star formation. ANDERSON J.P., HABERGHAM S.M., JAMES P.A., et al.
2012ApJ...756..111M 15       D               1 100 114 Core-collapse supernovae missed by optical surveys. MATTILA S., DAHLEN T., EFSTATHIOU A., et al.
2012A&A...544A..81H viz 15       D               1 7232 67 Supernovae and their host galaxies. I. The SDSS DR8 database and statistics. HAKOBYAN A.A., ADIBEKYAN V.Zh., ARAMYAN L.S., et al.
2012ApJ...759..107K viz 15       D               1 553 146 Core-collapse supernovae and host galaxy stellar populations. KELLY P.L. and KIRSHNER R.P.
2013A&A...549A..79S 796       D     X C       20 36 13 Twelve type II-P supernovae seen with the eyes of Spitzer. SZALAI T. and VINKO J.
2013MNRAS.428.1927C 16       D               1 330 52 On the association between core-collapse supernovae and HII regions. CROWTHER P.A.
2013ApJ...772L..32V 41           X         1 10 57 The progenitor of supernova 2011dh has vanished. VAN DYK S.D., ZHENG W., CLUBB K.I., 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.
2013A&A...558A.131G viz 56       D     X         2 60 160 Fundamental properties of core-collapse supernova and GRB progenitors: predicting the look of massive stars before death. GROH J.H., MEYNET G., GEORGY C., et al.
2013MNRAS.436.3224P 94       D         F     3 26 30 An emerging coherent picture of red supergiant supernova explosions. POZNANSKI D.
2014MNRAS.438..938M 1417     A D S   X C F     34 16 33 A late-time view of the progenitors of five Type IIP supernovae. MAUND J.R., REILLY E. and MATTILA S.
2014MNRAS.440.1917D 16       D               2 32 57 On the lack of X-ray bright Type IIP supernovae. DWARKADAS V.V.
2015ApJ...799..215P viz 135       D     X         4 53 38 A global model of the light curves and expansion velocities of Type II-Plateau supernovae. PEJCHA O. and PRIETO J.L.
2015MNRAS.448.2482J 119           X C       2 18 27 Supersolar Ni/Fe production in the Type IIP SN 2012ec. JERKSTRAND A., SMARTT S.J., SOLLERMAN J., 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.456.3157K 40           X         1 39 8 Broad-band polarimetric investigation of the Type II-plateau supernova 2013ej. KUMAR B., PANDEY S.B., ESWARAIAH C., et al.
2017MNRAS.467..369S 16       D               16 79 11 After the fall: late-time spectroscopy of Type IIP supernovae. SILVERMAN J.M., PICKETT S., WHEELER J.C., et al.
2018MNRAS.474.2116D 306       D     X         8 58 97 The initial masses of the red supergiant progenitors to Type II supernovae. DAVIES B. and BEASOR E.R.
2018A&A...613A..35K 16       D               3 171 55 Constraints on core-collapse supernova progenitors from explosion site integral field spectroscopy. KUNCARAYAKTI H., ANDERSON J.P., GALBANY L., et al.
2018ApJ...863...20J 82             C       1 60 5 SPIRITS 16tn in NGC 3556: a heavily obscured and low-luminosity supernova at 8.8 Mpc. JENCSON J.E., KASLIWAL M.M., ADAMS S.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.
2018MNRAS.481.2536K 41           X         1 20 14 The dusty progenitor star of the Type II supernova 2017eaw. KILPATRICK C.D. and FOLEY R.J.
2019ApJS..241...38S viz 17       D               3 220 38 A comprehensive analysis of Spitzer supernovae. SZALAI T., ZSIROS S., FOX O.D., et al.
2019MNRAS.489L..69N 209           X C       4 9 ~ The aspherical explosion of the Type IIP SN 2017gmr+. NAGAO T., CIKOTA A., PATAT F., et al.
2019MNRAS.490.4515S 393       D     X   F     9 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.
2020MNRAS.494L..53F 17       D               1 19 ~ The uncertain masses of progenitors of core-collapse supernovae and direct-collapse black holes. FARRELL E.J., GROH J.H., MEYNET G., et al.
2020MNRAS.493..468D 86             C       1 28 42 The `red supergiant problem': the upper luminosity boundary of Type II supernova progenitors. DAVIES B. and BEASOR E.R.
2021A&A...645A...6Z 104       D         F     6 34 29 Effect of binary evolution on the inferred initial and final core masses of hydrogen-rich, Type II supernova progenitors. ZAPARTAS E., DE MINK S.E., JUSTHAM S., et al.
2021ApJ...908...75B 17       D               1 556 32 The radio luminosity-risetime function of core-collapse supernovae. BIETENHOLZ M.F., BARTEL N., ARGO M., 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.505.1742R 235       D     X         6 264 9 The iron yield of normal Type II supernovae. RODRIGUEZ O., MEZA N., PINEDA-GARCIA J., et al.
2021MNRAS.505.3664N 87               F     1 14 10 Evidence for multiple origins of fast declining Type II supernovae from spectropolarimetry of SN 2013ej and SN 2017ahn. NAGAO T., PATAT F., TAUBENBERGER S., et al.
2021A&A...651A..10D 44           X         1 10 ~ Polarization signatures of a high-velocity scatterer in nebular-phase spectra of Type II supernovae. DESSART L., HILLIER D.J. and LEONARD D.C.
2021ApJ...923...86C viz 17       D               1 813 3 Local environments of low-redshift supernovae. CRONIN S.A., UTOMO D., LEROY A.K., et al.
2022MNRAS.515..897R 466       D     X   F     10 122 8 Luminosity distribution of Type II supernova progenitors. RODRIGUEZ O.
2022MNRAS.517.1483D 90               F     1 17 12 Explosion imminent: the appearance of red supergiants at the point of core-collapse. DAVIES B., PLEZ B. and PETRAULT M.
2023MNRAS.519..471V 47           X         1 41 8 The disappearances of six supernova progenitors. VAN DYK S.D., DE GRAW A., BAER-WAY R., et al.
2023ApJ...952L..23K 47           X         1 27 ~ SN 2023ixf in Messier 101: A Variable Red Supergiant as the Progenitor Candidate to a Type II Supernova. KILPATRICK C.D., FOLEY R.J., JACOBSON-GALAN W.V., et al.
2024ApJ...960...72S 20       D               1 94 ~ Search for Supernova Progenitor Stars with ZTF and LSST. STROTJOHANN N.L., OFEK E.O., GAL-YAM A., et al.

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