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SN 2005af , the SIMBAD biblio (63 results) | C.D.S. - SIMBAD4 rel 1.8 - 2024.04.25CEST23:05:17 |
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 |
---|---|---|---|---|---|---|---|---|---|
2005IAUC.8482....1J | 1 | 2 | 7 | Possible supernova in NGC 4945. | JACQUES C. and PIMENTEL E. | ||||
2005IAUC.8484....2F | 74 | T | 2 | 5 |
Supernova 2005af in NGC 4945. |
FILIPPENKO A.V. and FOLEY R.J. | |||
2005IAUC.8487....6P | 74 | T | 2 | 0 |
Supernova 2005af in NGC 4945. |
PEARCE A. and SOUZA W. | |||
2006A&A...454..827P | 134 | T K A | O | 4 | 6 |
Optical polarimetric monitoring of the type II-plateau SN 2005af. |
PEREYRA A., MAGALHAES A.M., RODRIGUES C.V., et al. | ||
2006ApJ...651L.117K | 116 | T K | 5 | 43 |
Spitzer measurements of atomic and molecular abundances in the type IIP SN 2005af. |
KOTAK R., MEIKLE P., POZZO M., et al. | |||
2007ApJ...661..995G | 2 | 13 | 53 | Signatures of delayed detonation, asymmetry, and electron capture in the mid-infrared spectra of supernovae 2003hv and 2005df. | GERARDY C.L., MEIKLE W.P.S., KOTAK R., et al. | ||||
2007ApJ...665..608M | 4 | 11 | 106 | A Spitzer Space Telescope study of SN 2003gd: still no direct evidence that core-collapse supernovae are major dust factories. | MEIKLE W.P.S., MATTILA S., PASTORELLO A., et al. | ||||
2008PASJ...60S.241I | 38 | X | 1 | 15 | 10 | Discovery of a bright transient ultraluminous X-ray source, Suzaku J1305-4931 in NGC4945. | ISOBE N., KUBOTA A., MAKISHIMA K., et al. | ||
2007A&G....48a..35C | 15 | 1 | Core-collapse Supernovae and their Massive Progenitors. | CROWTHER P. and SMARTT S. | |||||
2009MNRAS.395.1409S | 16 | D | 1 | 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. | ||
2009ApJ...700..579R | 191 | X | 5 | 12 | 48 | Spitzer observations of the young core-collapse supernova remnant 1E0102-72.3: infrared ejecta emission and dust formation. | RHO J., REACH W.T., TAPPE A., et al. | ||
2009ApJ...703..642C | 43 | X | 1 | 8 | 81 | The chemistry of population III supernova ejecta. I. Formation of molecules in the early universe. | CHERCHNEFF I. and DWEK E. | ||
2009ApJ...704..306K | 42 | X | 1 | 16 | 154 | Dust and the type II-plateau Supernova 2004et. | KOTAK R., MEIKLE W.P.S., FARRAH D., et al. | ||
2009ApJ...705.1364T | 39 | X | 1 | 92 | 201 | A new class of luminous transients and a first census of their massive stellar progenitors. | THOMPSON T.A., PRIETO J.L., STANEK K.Z., et al. | ||
2009ApJ...705.1425P | 190 | X C F | 3 | 28 | 59 | A Spitzer/IRS spectrum of the 2008 luminous transient in NGC 300: connection to proto-planetary nebulae. | PRIETO J.L., SELLGREN K., THOMPSON T.A., et al. | ||
2009A&A...508..371H | 39 | X | 1 | 32 | 117 | Extensive optical and near-infrared observations of the nearby, narrow-lined type IC SN 2007gr: days 5 to 415. | HUNTER D.J., VALENTI S., KOTAK R., et al. | ||
2011A&A...527A..61S | 115 | X | 3 | 23 | 28 | Dust formation in the ejecta of the type II-P supernova 2004dj. | SZALAI T., VINKO J., BALOG Z., et al. | ||
2011ApJ...731...47A | 38 | X | 1 | 28 | 36 | Photometric and spectroscopic evolution of the IIP SN 2007it to day 944. | ANDREWS J.E., SUGERMAN B.E.K., CLAYTON G.C., et al. | ||
2011ApJ...738..154H | 55 | D | X | 2 | 59 | 203 | The cosmic core-collapse supernova rate does not match the massive-star formation rate. | HORIUCHI S., BEACOM J.F., KOCHANEK C.S., et al. | |
2011ApJ...741....7F | 15 | D | 1 | 108 | 116 | A Spitzer survey for dust in type IIn supernovae. | FOX O.D., CHEVALIER R.A., SKRUTSKIE M.F., et al. | ||
2012A&A...537A.132B | 93 | D | X | 3 | 119 | 101 | A comparison between star formation rate diagnostics and rate of core collapse supernovae within 11 mpc. | BOTTICELLA M.T., SMARTT S.J., KENNICUTT R.C.Jr, et al. | |
2012A&A...538A.120L | 15 | D | 1 | 5598 | 37 | A unified supernova catalogue. | LENNARZ D., ALTMANN D. and WIEBUSCH C. | ||
2011A&ARv..19...43G | 39 | X | 1 | 78 | 169 | Production of dust by massive stars at high redshift. | GALL C., HJORTH J. and ANDERSEN A.C. | ||
2012ApJ...756..111M | 54 | D | X | 2 | 100 | 114 | Core-collapse supernovae missed by optical surveys. | MATTILA S., DAHLEN T., EFSTATHIOU A., et al. | |
2013A&A...549A..79S | 1498 | D | X C | 38 | 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...769..113H | 16 | D | 1 | 39 | 21 | Effects of stellar rotation on star formation rates and comparison to core-collapse supernova rates. | HORIUCHI S., BEACOM J.F., BOTHWELL M.S., et al. | ||
2013ApJ...776..107S | 17 | D | 1 | 14 | 53 | The chemically controlled synthesis of dust in type II-p supernovae. | SARANGI A. and CHERCHNEFF I. | ||
2013MNRAS.436..774E | 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. | ||
2014ApJ...786...67A | 16 | D | 3 | 234 | 250 | Characterizing the V-band light-curves of hydrogen-rich type II supernovae. | ANDERSON J.P., GONZALEZ-GAITAN S., HAMUY M., et al. | ||
2014Natur.511..326G | 6 | 13 | 166 | Rapid formation of large dust grains in the luminous supernova 2010jl. | GALL C., HJORTH J., WATSON D., et al. | ||||
2014ApJ...791..105W | 16 | D | 2 | 40 | 37 | Constraints for the progenitor masses of 17 historic core-collapse supernovae. | WILLIAMS B.F., PETERSON S., MURPHY J., et al. | ||
2014MNRAS.442....2K | 393 | X C | 9 | 30 | 5 | Broad-band polarimetric follow-up of Type IIP SN 2012aw. | KUMAR B., PANDEY S.B., ESWARAIAH C., et al. | ||
2015A&A...575A..95S | 82 | C | 2 | 15 | 106 | Condensation of dust in the ejecta of Type II-P supernovae. | SARANGI A. and CHERCHNEFF I. | ||
2015MNRAS.452.2597X | 135 | D | X C | 3 | 33 | 12 | Core-collapse supernova rate synthesis within 11 Mpc. | XIAO L. and ELDRIDGE J.J. | |
2016MNRAS.455.2712B | 161 | C F | 2 | 40 | 3 | Photometric and polarimetric observations of fast declining Type II supernovae 2013hj and 2014G. | BOSE S., KUMAR B., MISRA K., et al. | ||
2016A&A...589A.110A | 16 | D | 2 | 217 | 17 | Type II supernovae as probes of environment metallicity: observations of host H II regions. | ANDERSON J.P., GUTIERREZ C.P., DESSART L., et al. | ||
2016MNRAS.459.3939V | 17 | D | 1 | 210 | 225 | The diversity of Type II supernova versus the similarity in their progenitors. | VALENTI S., HOWELL D.A., STRITZINGER M.D., et al. | ||
2016ApJ...833..231T | 16 | D | 1 | 103 | 50 | A systematic study of mid-infrared emission from core-collapse supernovae with SPIRITS. | TINYANONT S., KASLIWAL M.M., FOX O.D., et al. | ||
2017ApJ...835..166D | 16 | D | 1 | 89 | 18 | A Type II supernova Hubble diagram from the CSP-I, SDSS-II, and SNLS surveys. | DE JAEGER T., GONZALEZ-GAITAN S., HAMUY M., et al. | ||
2017ApJ...850...89G | 16 | D | 1 | 252 | 84 | Type II supernova spectral diversity. I. Observations, sample characterization, and spectral line evolution. | GUTIERREZ C.P., ANDERSON J.P., HAMUY M., et al. | ||
2017ApJ...850...90G | 16 | D | 3 | 124 | 51 | Type II supernova spectral diversity. II. Spectroscopic and photometric correlations. | GUTIERREZ C.P., ANDERSON J.P., HAMUY M., et al. | ||
2018MNRAS.476.4592D | 58 | D | X | 2 | 75 | 11 | Observed Type II supernova colours from the Carnegie Supernova Project-I. | DE JAEGER T., ANDERSON J.P., GALBANY L., et al. | |
2018ApJ...860...39W | 222 | D | X C | 5 | 31 | 17 | Constraints for the progenitor masses of historic core-collapse supernovae. | WILLIAMS B.F., HILLIS T.J., MURPHY J.W., et al. | |
2018ApJ...863...20J | 165 | X C | 3 | 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.479.3232G | 16 | D | 3 | 254 | 15 | Type II supernovae in low-luminosity host galaxies. | GUTIERREZ C.P., ANDERSON J.P., SULLIVAN M., et al. | ||
2018MNRAS.480.2475S | 16 | D | 1 | 58 | 8 | ASASSN-14dq: a fast-declining Type II-P supernova in a low-luminosity host galaxy. | SINGH A., SRIVASTAV S., KUMAR B., et al. | ||
2018MNRAS.481..806B | 16 | D | 1 | 30 | 3 | Early formation of carbon monoxide in the Centaurus A supernova SN 2016adj. | BANERJEE D.P.K., JOSHI V., EVANS A., et al. | ||
2019MNRAS.486.2850D | 125 | X F | 2 | 27 | 3 | SN 2016B a.k.a. ASASSN-16ab: a transitional Type II supernova. | DASTIDAR R., MISRA K., SINGH M., et al. | ||
2019ApJS..241...38S | 142 | D | X | 4 | 220 | 38 | A comprehensive analysis of Spitzer supernovae. | SZALAI T., ZSIROS S., FOX O.D., et al. | |
2020A&A...641A.177M | 17 | D | 1 | 288 | ~ | Stripped-envelope core-collapse supernova 56Ni masses. Persistently larger values than supernovae type II. | MEZA N. and ANDERSON J.P. | ||
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. | ||
2021MNRAS.506..781D | 44 | X | 1 | 44 | 7 | Progenitor mass distribution for 22 historic core-collapse supernovae. | DIAZ-RODRIGUEZ M., MURPHY J.W., WILLIAMS B.F., et al. | ||
2022A&A...660A..40M | 18 | D | 2 | 147 | 6 | Type II supernovae from the Carnegie Supernova Project-I. I. Bolometric light curves of 74 SNe II using uBgVriYJH photometry. | MARTINEZ L., BERSTEN M.C., ANDERSON J.P., et al. | ||
2022A&A...660A..41M | 152 | D | X | 4 | 86 | 16 | Type II supernovae from the Carnegie Supernova Project-I. II. Physical parameter distributions from hydrodynamical modelling. | MARTINEZ L., BERSTEN M.C., ANDERSON J.P., et al. | |
2022MNRAS.515..897R | 18 | D | 2 | 122 | 8 | Luminosity distribution of Type II supernova progenitors. | RODRIGUEZ O. | ||
2022MNRAS.515.4302N | 18 | D | 5 | 46 | 10 | Dust masses for a large sample of core-collapse supernovae from optical emission line asymmetries: dust formation on 30-year time-scales. | NICULESCU-DUVAZ M., BARLOW M.J., BEVAN A., et al. | ||
2022MNRAS.516.4229C | 45 | X | 1 | 7 | 1 | SOFIA/HAWC+ observations of the Crab Nebula: dust properties from polarized emission. | CHASTENET J., DE LOOZE I., HENSLEY B.S., et al. | ||
2023ApJ...944..110M | 65 | D | X | 2 | 110 | 4 | Comparing the Locations of Supernovae to CO (2-1) Emission in Their Host Galaxies. | MAYKER CHEN N., LEROY A.K., LOPEZ L.A., et al. | |
2023MNRAS.519.2940N | 187 | C F | 2 | 19 | ~ | Quantifying the dust in SN 2012aw and iPTF14hls with ORBYTS. | NICULESCU-DUVAZ M., BARLOW M.J., DUNN W., et al. | ||
2023A&A...674A.184L | 93 | X | 2 | 15 | 8 | The molecular chemistry of Type Ibc supernovae and diagnostic potential with the James Webb Space Telescope. | LILJEGREN S., JERKSTRAND A., BARKLEM P.S., et al. | ||
2023MNRAS.523.6048S | 93 | F | 1 | 17 | 3 | JWST observations of dust reservoirs in type IIP supernovae 2004et and 2017eaw. | SHAHBANDEH M., SARANGI A., TEMIM T., et al. | ||
2023MNRAS.525.4928W | 93 | F | 1 | 41 | ~ | Evidence for late-time dust formation in the ejecta of supernova SN 1995N from emission-line asymmetries. | WESSON R., BEVAN A.M., BARLOW M.J., et al. |