SN 2009ib , the SIMBAD biblio

SN 2009ib , the SIMBAD biblio (37 results) C.D.S. - SIMBAD4 rel 1.7 - 2021.10.27CEST17:52:20


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Title First 3 Authors
2021A&A...645A...6Z 100               F     4 34 ~ 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.
2021MNRAS.501.1059R 50           X         1 24 ~ Low-luminosity Type II supernovae - III. SN 2018hwm, a faint event with an unusually long plateau. REGUITTI A., PUMO M.L., MAZZALI P.A., et al.
2020A&A...641A.177M viz 19       D               1 288 ~ Stripped-envelope core-collapse supernova 56Ni masses. Persistently larger values than supernovae type II. MEZA N. and ANDERSON J.P.
2020ApJ...895L..45G 420     A D     X C       9 9 ~ The value of progenitor radius measurements for explosion modeling of Type II-Plateau supernovae. GOLDBERG J.A. and BILDSTEN L.
2020ApJ...898...29T 47           X         1 2 ~ Comparing moment-based and Monte Carlo methods of radiation transport modeling for Type II-Plateau supernova light curves. TSANG B.T.-H., GOLDBERG J.A., BILDSTEN L., et al.
2020MNRAS.494.5882R 233           X C F     3 61 ~ Luminous Type II supernovae for their low expansion velocities. RODRIGUEZ O., PIGNATA G., ANDERSON J.P., et al.
2020MNRAS.496.3402D 718       D     X C       15 23 ~ A measurement of the Hubble constant from Type II supernovae. DE JAEGER T., STAHL B.E., ZHENG W., et al.
2019ApJ...870L..16S 18       D               1 39 ~ Bright Type IIP supernovae in (low-metallicity) galaxies. SCOTT S., NICHOLL M., BLANCHARD P., et al.
2019ApJ...877...92O 45           X         1 10 ~ Constraining massive star activities in the final years through properties of supernovae and their progenitors. OUCHI R. and MAEDA K.
2019ApJ...881...22A 90             C       1 19 ~ KSP-SN-2016kf: a long-rising H-rich Type II supernova with unusually high 56Ni mass discovered in the KMTNet Supernova Program. AFSARIARDCHI N., MOON D.-S., DROUT M.R., et al.
2019ApJ...882...68S 152       D     X         4 27 ~ Observational signature of circumstellar interaction and 56Ni-mixing in the Type II Supernova 2016gfy. SINGH A., KUMAR B., MORIYA T.J., et al.
2019ApJ...887....4D 18       D               1 73 ~ Carnegie Supernova Project-II: near-infrared spectroscopic diversity of Type II supernovae. DAVIS S., HSIAO E.Y., ASHALL C., et al.
2019MNRAS.483.1211K 385     A     X         9 1 ~ The role of radioactive nickel in shaping the plateau phase of Type II supernovae. KOZYREVA A., NAKAR E. and WALDMAN R.
2019MNRAS.483.5459R 63       D     X         2 66 ~ Type II supernovae as distance indicators at near-IR wavelengths. RODRIGUEZ O., PIGNATA G., HAMUY M., et al.
2019MNRAS.488.4239P 18       D               3 106 ~ Comparison of the optical light curves of hydrogen-rich and hydrogen-poor type II supernovae. PESSI P.J., FOLATELLI G., ANDERSON J.P., et al.
2019MNRAS.489..641M 18       D               1 42 ~ A comparison of explosion energies for simulated and observed core-collapse supernovae. MURPHY J.W., MABANTA Q. and DOLENCE J.C.
2019MNRAS.489.5802V 18       D               1 72 ~ Spectrophotometric templates for core-collapse supernovae and their application in simulations of time-domain surveys. VINCENZI M., SULLIVAN M., FIRTH R.E., et al.
2018A&A...613A..35K 17       D               3 171 5 Constraints on core-collapse supernova progenitors from explosion site integral field spectroscopy. KUNCARAYAKTI H., ANDERSON J.P., GALBANY L., et al.
2018ApJ...858...15M 17       D               2 23 7 Measuring the progenitor masses and dense circumstellar material of Type II supernovae. MOROZOVA V., PIRO A.L. and VALENTI S.
2018ApJ...859...78N 44           X         1 22 1 The low-luminosity Type IIP Supernova 2016bkv with early-phase circumstellar interaction. NAKAOKA T., KAWABATA K.S., MAEDA K., et al.
2018MNRAS.473..513F 453       D     X C F     9 29 6 The evolution of temperature and bolometric luminosity in Type II supernovae. FARAN T., NAKAR E. and POZNANSKI D.
2018MNRAS.473.3863L 104       D         F     3 83 4 Progenitors of low-luminosity Type II-Plateau supernovae. LISAKOV S.M., DESSART L., HILLIER D.J., et al.
2018MNRAS.475.1937T 348           X C F     6 27 3 SNe 2013K and 2013am: observed and physical properties of two slow, normal Type IIP events. TOMASELLA L., CAPPELLARO E., PUMO M.L., et al.
2018MNRAS.479.2421D 366       D     X   F     8 48 1 SN 2015ba: a Type IIP supernova with a long plateau. DASTIDAR R., MISRA K., HOSSEINZADEH G., et al.
2018MNRAS.480.2475S 104       D       C       3 58 ~ ASASSN-14dq: a fast-declining Type II-P supernova in a low-luminosity host galaxy. SINGH A., SRIVASTAV S., KUMAR B., et al.
2017ApJ...841..127M 272       D     X C       6 26 15 The nickel mass distribution of normal Type II supernovae. MULLER T., PRIETO J.L., PEJCHA O., et al.
2017MNRAS.464.3013P 315       D     X   F     7 30 11 Radiation-hydrodynamical modelling of underluminous Type II plateau supernovae. PUMO M.L., ZAMPIERI L., SPIRO S., et al.
2016ApJ...823..127N 226       D     X C       5 25 15 The importance of 56Ni in shaping the light curves of type II supernovae. NAKAR E., POZNANSKI D. and KATZ B.
2016MNRAS.459.3939V viz 184       D       C F     5 210 71 The diversity of Type II supernova versus the similarity in their progenitors. VALENTI S., HOWELL D.A., STRITZINGER M.D., et al.
2015MNRAS.450.3137T viz 4610 T K A D     X C F     110 27 18
SN 2009ib: a Type II-P supernova with an unusually long plateau.
TAKATS K., PIGNATA G., PUMO M.L., et al.
2013MNRAS.428.1927C 96       D     X         3 330 46 On the association between core-collapse supernovae and HII regions. CROWTHER P.A.
2013MNRAS.436..774E viz 16       D               1 250 143 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.
2012A&A...538A.120L viz 16       D               1 5597 23 A unified supernova catalogue. LENNARZ D., ALTMANN D. and WIEBUSCH C.
2012ApJ...756..111M 16       D               1 100 72 Core-collapse supernovae missed by optical surveys. MATTILA S., DAHLEN T., EFSTATHIOU A., et al.
2011ApJ...738..154H 17       D               1 59 139 The cosmic core-collapse supernova rate does not match the massive-star formation rate. HORIUCHI S., BEACOM J.F., KOCHANEK C.S., et al.
2009CBET.1902....1P 39 T       O X         5 2 Supernova 2009ib in NGC 1559. PIGNATA G., MAZA J., HAMUY M., et al.
2009CBET.1902....2S 39 T       O X         2 1 Supernova 2009ib in NGC 1559. STRITZINGER M. and FOLATELLI G.

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