SN 2004A , the SIMBAD biblio

SN 2004A , the SIMBAD biblio (75 results) C.D.S. - SIMBAD4 rel 1.8 - 2024.04.14CEST19:42:05


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Title First 3 Authors
2004IAUC.8265....1N 74 T                   2 4
Supernova 2004A in NGC 6207.
NAKANO S., ITAGAKI K., KUSHIDA R., et al.
2004IAUC.8266....2K 74 T                   2 5
Supernova 2004A in NGC 6207.
KAWAKITA H., KINUGASA K., AYANI K., et al.
2005PASP..117..773V viz 447 60 Classifications of the host galaxies of supernovae, set III. VAN DEN BERGH S., LI W. and FILIPPENKO A.V.
2006A&A...453...57J 111 60 The Hα Galaxy Survey. III. Constraints on supernova progenitors from spatial correlations with Hα emission. JAMES P.A. and ANDERSON J.P.
2006ApJ...645..841N 1 33 128 Toward a cosmological Hubble diagram for type II-P supernovae. NUGENT P., SULLIVAN M., ELLIS R., et al.
2006MNRAS.369.1303H 112 T K                 33 64
SN 2004A: another Type II-P supernova with a red supergiant progenitor.
HENDRY M.A., SMARTT S.J., CROCKETT R.M., et al.
2007ApJ...661.1013L 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.
2007MNRAS.381..280M 240       D     X C F     5 32 27 Type IIP supernova SN 2004et: a multiwavelength study in X-ray, optical and radio. MISRA K., POOLEY D., CHANDRA P., et al.
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.
2008PZ.....28....3T 6 5 Photometric observations of two type II-P supernovae: normal SN II-P 2004A and unusual SN 2004ek. TSVETKOV D.Y.
2008MNRAS.390.1527A 15       D               1 302 93 Constraints on core-collapse supernova progenitors from correlations with Hα emission. ANDERSON J.P. and JAMES P.A.
2008A&A...492..367H 38           X         1 78 2 Interacting and merging galaxies from the second Byurakan survey. I. HI-observations. HUCHTMEIER W.K., PETROSIAN A., GOPAL-KRISHNA, et al.
2009ApJ...698.1307T 38           X         1 70 37 NGC 2770: a supernova Ib factory? THONE C.C., MICHALOWSKI M.J., LELOUDAS G., et al.
2009MNRAS.395.1409S viz 585       D S   X   F     14 294 620 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.
2009MNRAS.399..559A 15       D               1 322 72 Comparisons of the radial distributions of core-collapse supernovae with those of young and old stellar populations. ANDERSON J.P. and JAMES P.A.
2009ARA&A..47...63S 81           X         2 81 964 Progenitors of Core-Collapse Supernovae. SMARTT S.J.
2010MNRAS.404..981M 437       D     X C F     10 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.
2010ApJ...717..342H viz 15       D               1 320 47 Type Ibc supernovae in disturbed galaxies: evidence for a top-heavy initial mass function. HABERGHAM S.M., ANDERSON J.P. and JAMES P.A.
2008BASI...36...79G 3066 T     D     X C       80 18 2 Photometric and spectroscopic evolution of type II-P supernova
SN 2004A.
GURUGUBELLI U.K., SAHU D.K., ANUPAMA G.C., et al.
2011MNRAS.410.2767C 38           X         1 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.414..167R 230           X C F     4 21 12 SN 2008gz – most likely a normal type IIP event. ROY R., KUMAR B., MOSKVITIN A.S., et al.
2011ApJ...736...76R 192           X C F     3 37 56 SN 2008in–Bridging the gap between normal and faint supernovae of type IIP. ROY R., KUMAR B., BENETTI S., et al.
2009RAA.....9..783Z 91       D       C       2 21 0 Late-time photometry of two nearby type II-P supernovae : 2004dj and 2004et. ZHANG T.-M., WANG X.-F., ZHOU X., et al.
2011MNRAS.417.1417F 155           X   F     3 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.
2012ApJ...745...70P 77             C       1 33 16 SN 2008jb: a "Lost" core-collapse supernova in a star-forming dwarf galaxy at ∼10 mpc. PRIETO J.L., LEE J.C., DRAKE A.J., et al.
2012A&A...538A.120L viz 15       D               1 5598 37 A unified supernova catalogue. LENNARZ D., ALTMANN D. and WIEBUSCH C.
2012ApJ...756..131V 40           X         1 30 61 The red supergiant progenitor of supernova 2012aw (PTF12bvh) in Messier 95. VAN DYK S.D., CENKO S.B., POZNANSKI D., 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.
2012A&A...546A..28J 43           X         1 18 144 The progenitor mass of the type IIP supernova SN 2004et from late-time spectral modeling. JERKSTRAND A., FRANSSON C., MAGUIRE K., 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 835       D     X C       21 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.
2013MNRAS.436.3224P 94       D         F     3 26 30 An emerging coherent picture of red supergiant supernova explosions. POZNANSKI D.
2014MNRAS.438..938M 1063     A D S   X C F     25 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.
2014ApJ...795..142G viz 16       D               1 448 7 Defining photometric peculiar type Ia supernovae. GONZALEZ-GAITAN S., HSIAO E.Y., PIGNATA G., et al.
2014AJ....148..107R 134       D     X         4 104 44 Photospheric magnitude diagrams for Type II supernovae: a promising tool to compute distances. RODRIGUEZ O., CLOCCHIATTI A. and HAMUY M.
2015ApJ...799..215P viz 95       D       C       6 53 38 A global model of the light curves and expansion velocities of Type II-Plateau supernovae. PEJCHA O. and PRIETO J.L.
2015A&A...575A..95S 82             C       1 15 106 Condensation of dust in the ejecta of Type II-P supernovae. SARANGI A. and CHERCHNEFF I.
2016AJ....151...33G viz 16       D               1 168 81 UBVRIz light curves of 51 Type II supernovae. GALBANY L., HAMUY M., PHILLIPS M.M., et al.
2016ApJ...818..123B 49           X         1 18 176 The development of explosions in axisymmetric ab initio core-collapse supernova simulations of 12-25 M stars. BRUENN S.W., LENTZ E.J., HIX W.R., et al.
2016ApJ...823..127N 17       D               1 25 27 The importance of 56Ni in shaping the light curves of type II supernovae. NAKAR E., POZNANSKI D. and KATZ B.
2017MNRAS.467..369S 2737       D     X C F     66 79 11 After the fall: late-time spectroscopy of Type IIP supernovae. SILVERMAN J.M., PICKETT S., WHEELER J.C., et al.
2017MNRAS.470.1642F 91           X         2 14 147 Pre-supernova outbursts via wave heating in massive stars - I. Red supergiants. FULLER J.
2017MNRAS.469.2202M 463       D S   X C       10 30 28 The resolved stellar populations around 12 Type IIP supernovae. MAUND J.R.
2018MNRAS.473..513F 469       D     X C F     10 29 10 The evolution of temperature and bolometric luminosity in Type II supernovae. FARAN T., NAKAR E. and POZNANSKI D.
2018MNRAS.474.2116D 59       D     X         2 58 97 The initial masses of the red supergiant progenitors to Type II supernovae. DAVIES B. and BEASOR E.R.
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.473.3863L 99       D         F     3 83 13 Progenitors of low-luminosity Type II-Plateau supernovae. LISAKOV S.M., DESSART L., HILLIER D.J., 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.
2019ApJ...870....1E viz 21       D               1 13 60 PUSHing core-collapse supernovae to explosions in spherical symmetry. II. Explodability and remnant properties. EBINGER K., CURTIS S., FROHLICH C., et al.
2019ApJ...870L..16S 17       D               1 39 ~ Bright Type IIP supernovae in (low-metallicity) galaxies. SCOTT S., NICHOLL M., BLANCHARD P., et al.
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.489..641M 17       D               1 42 ~ A comparison of explosion energies for simulated and observed core-collapse supernovae. MURPHY J.W., MABANTA Q. and DOLENCE J.C.
2019A&A...629A.124M 334     A D S   X C       7 15 ~ Mass discrepancy analysis for a select sample of Type II-Plateau supernovae. MARTINEZ L. and BERSTEN M.C.
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.
2020ApJ...895L..45G 470     A D     X C       11 9 23 The value of progenitor radius measurements for explosion modeling of Type II-Plateau supernovae. GOLDBERG J.A. and BILDSTEN L.
2020MNRAS.497.2227P 570       D     X C F     12 16 ~ Constraining early-time dust formation in core-collapse supernovae. PRIESTLEY F.D., BEVAN A., BARLOW M.J., et al.
2020A&A...641A.177M viz 17       D               1 288 ~ Stripped-envelope core-collapse supernova 56Ni masses. Persistently larger values than supernovae type II. MEZA N. and ANDERSON J.P.
2020A&A...642A.143M 529       D     X C F     11 12 13 Progenitor properties of type II supernovae: fitting to hydrodynamical models using Markov chain Monte Carlo methods. MARTINEZ L., BERSTEN M.C., ANDERSON J.P., et al.
2021A&A...645A...6Z 87               F     4 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.505.1742R 17       D               3 264 9 The iron yield of normal Type II supernovae. RODRIGUEZ O., MEZA N., PINEDA-GARCIA J., 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.
2022MNRAS.513.4556Z 18       D               1 41 1 SN 2019va: a Type IIP Supernova with Large Influence of Nickel-56 Decay on the Plateau-phase Light Curve. ZHANG X., WANG X., SAI H., et al.
2022ApJ...934...67B 180           X C       3 11 14 Connecting the Light Curves of Type IIP Supernovae to the Properties of Their Progenitors. BARKER B.L., HARRIS C.E., WARREN M.L., et al.
2022MNRAS.515..897R 511       D     X   F     11 122 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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