SN 2011fe , the SIMBAD biblio

SN 2011fe , the SIMBAD biblio (512 results) C.D.S. - SIMBAD4 rel 1.7 - 2020.08.11CEST22:29:28


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Title First 3 Authors
2020A&A...634A..37M viz 120       D     X         3 35 ~ Determining the 56Ni distribution of type Ia supernovae from observations within days of explosion. MAGEE M.R., MAGUIRE K., KOTAK R., et al.
2020A&A...635A.169G 700           X C       13 3 ~ SNe Ia from double detonations: Impact of core-shell mixing on the carbon ignition mechanism. GRONOW S., COLLINS C., OHLMANN S.T., et al.
2020ApJ...888...80L 630     A S   X C       11 7 ~ Explosive nucleosynthesis in sub-Chandrasekhar-mass white dwarf models for Type Ia supernovae: dependence on model parameters. LEUNG S.-C. and NOMOTO K.
2020ApJ...889..100P 300           X C       5 6 ~ Variable Hα emission in the nebular spectra of the low-luminosity Type Ia SN2018cqj/ATLAS18qtd. PRIETO J.L., CHEN P., DONG S., et al.
2020ApJ...890...45B 400           X C       7 10 ~ A photometric analysis of the relationship between the UV flux of Type Ia supernovae and host-galaxy metallicity. BROWN P.J. and CRUMPLER N.R.
2020ApJ...890..159L 2620       D S   X C       51 63 ~ The deepest radio observations of nearby SNe Ia: constraining progenitor types and optimizing future surveys. LUNDQVIST P., KUNDU E., PEREZ-TORRES M.A., et al.
2020ApJ...891...85D 50           X         1 16 ~ Manganese indicates a transition from sub- to near-Chandrasekhar Type Ia supernovae in dwarf galaxies. DE LOS REYES M.A.C., KIRBY E.N., SEITENZAHL I.R., et al.
2020ApJ...892...25J 200           X C       3 12 ~ The HSC-SSP transient survey: implications from early photometry and rise time of normal Type Ia supernovae. JIANG J.-A., YASUDA N., MAEDA K., et al.
2020ApJ...892..121K 770       D     X C       15 39 ~ Constraints on the physical properties of SNe Ia from photometry. KONYVES-TOTH R., VINKO J., ORDASI A., et al.
2020ApJ...892..142H 500           X C       9 24 ~ SN 2017cfd: a normal Type Ia supernova discovered very young. HAN X., ZHENG W., STAHL B.E., et al.
2020ApJ...893..143K 480     A     X         10 11 ~ SN 2019ein: new insights into the similarities and diversity among high-velocity Type Ia supernovae. KAWABATA M., MAEDA K., YAMANAKA M., et al.
2020ApJ...894...39C 50           X         1 19 ~ Thirty years of radio observations of Type Ia SN 1972E and SN 1895B: constraints on circumstellar shells. CENDES Y., DROUT M.R., CHOMIUK L., et al.
2020ApJ...895..118B 250           X C       4 55 ~ SN 2013aa and SN 2017cbv: two sibling Type Ia supernovae in the spiral galaxy NGC 5643. BURNS C.R., ASHALL C., CONTRERAS C., et al.
2020ApJ...895L...3A 50           X         1 142 ~ Carnegie supernova Project-II: a new method to photometrically identify sub-types of extreme Type Ia supernovae. ASHALL C., LU J., BURNS C., et al.
2020ApJ...896..165J 200           X C       3 21 ~ Ca hnk: the calcium-rich transient Supernova 2016hnk from a helium shell detonation of a sub-Chandrasekhar white dwarf. JACOBSON-GALAN W.V., POLIN A., FOLEY R.J., et al.
2020ApJ...897..159P 300           X C       5 11 ~ Constraining the source of the high-velocity ejecta in Type Ia SN 2019ein. PELLEGRINO C., HOWELL D.A., SARBADHICARY S.K., et al.
2020ApJ...898...12Z 50           X         1 7 ~ The interaction of Type Iax supernova ejecta with a helium companion star. ZENG Y., LIU Z.-W. and HAN Z.
2020ApJ...898...56M 250           X C       4 21 ~ The spectacular ultraviolet flash from the peculiar Type Ia supernova 2019yvq. MILLER A.A., MAGEE M.R., POLIN A., et al.
2020MNRAS.491.2902F 170       D     X         4 68 ~ Sub-Chandrasekhar progenitors favoured for Type Ia supernovae: evidence from late-time spectroscopy. FLORS A., SPYROMILIO J., TAUBENBERGER S., et al.
2020MNRAS.491.5897P 520       D     X C       10 59 ~ Swift UVOT grism observations of nearby Type Ia supernovae - II. Probing the progenitor metallicity of SNe Ia with ultraviolet spectra. PAN Y.-C., FOLEY R.J., JONES D.O., et al.
2020MNRAS.491.5991F 3500   K A D S   X C       69 6 ~ Significant luminosity differences of two twin Type Ia supernovae. FOLEY R.J., HOFFMANN S.L., MACRI L.M., et al.
2020MNRAS.492.2029S 100           X         2 4 ~ Monte Carlo radiative transfer for the nebular phase of Type Ia supernovae. SHINGLES L.J., SIM S.A., KROMER M., et al.
2020MNRAS.492.3553V 170       D     X         4 56 ~ Signatures of bimodality in nebular phase Type Ia supernova spectra. VALLELY P.J., TUCKER M.A., SHAPPEE B.J., et al.
2020MNRAS.492.4325S 520       D     X         11 247 ~ Berkeley supernova Ia program: data release of 637 spectra from 247 Type Ia supernovae. STAHL B.E., ZHENG W., DE JAEGER T., et al.
2020MNRAS.493.1044T 50           X         1 35 ~ Nebular spectra of 111 Type Ia supernovae disfavour single-degenerate progenitors. TUCKER M.A., SHAPPEE B.J., VALLELY P.J., et al.
2020MNRAS.493.5713S 50           X         1 2 ~ A possible distance bias for type Ia supernovae with different ejecta velocities. SIEBERT M.R., FOLEY R.J., JONES D.O., et al.
2020MNRAS.494.2221W 550           X C F     9 5 ~ Understanding nebular spectra of Type Ia supernovae. WILK K.D., HILLIER D.J. and DESSART L.
2020MNRAS.494.2809M 580     A     X         12 6 ~ The intermediate nebular phase of SN 2014J: onset of clumping as the source of recombination. MAZZALI P.A., BIKMAEV I., SUNYAEV R., et al.
2020MNRAS.494.5576P 250           X C F     3 24 ~ The mystery of photometric twins DES17X1boj and DES16E2bjy. PURSIAINEN M., GUTIERREZ C.P., WISEMAN P., et al.
2020NatAs...4..188G 550           X C       10 21 ~ A year-long plateau in the late-time near-infrared light curves of type Ia supernovae. GRAUR O., MAGUIRE K., RYAN R., et al.
2019A&A...621A..55B 47           X         1 2 ~ Impact of the 3D source geometry on time-delay measurements of lensed type-Ia supernovae. BONVIN V., TIHHONOVA O., MILLON M., et al.
2019A&A...626A.117P 93             C       2 133 ~ Search for transient optical counterparts to high-energy IceCube neutrinos with Pan-STARRS1. PAN-STARRS COLLABORATION, KANKARE E., HUBER M., et al.
2019A&A...627A.174H viz 140           X         3 19 ~ Discovery and progenitor constraints on the Type Ia supernova 2013gy. HOLMBO S., STRITZINGER M.D., SHAPPEE B.J., et al.
2019A&A...630A..76G viz 653           X C       13 45 ~ Evidence for a Chandrasekhar-mass explosion in the Ca-strong 1991bg-like type Ia supernova 2016hnk. GALBANY L., ASHALL C., HOFLICH P., et al.
2019ApJ...870...12L 840           X C       17 19 ~ Photometric and spectroscopic properties of Type Ia supernova 2018oh with early excess emission from the Kepler 2 observations. LI W., WANG X., VINKO J., et al.
2019ApJ...870...13S 93           X         2 17 ~ Seeing double: ASASSN-18bt exhibits a two-component rise in the early-time K2 light curve. SHAPPEE B.J., HOLOIEN T.W.-S., DROUT M.R., et al.
2019ApJ...870...14G 905       D S   X C       18 7 ~ Late-time observations of the Type Ia supernova SN 2014J with the Hubble Space Telescope Wide Field Camera 3. GRAUR O.
2019ApJ...870L...1D viz 980           X C       20 14 ~ K2 observations of SN 2018oh reveal a two-component rising light curve for a Type Ia supernova. DIMITRIADIS G., FOLEY R.J., REST A., et al.
2019ApJ...870L..14D 233           X C       4 8 ~ Nebular spectroscopy of Kepler's brightest supernova. DIMITRIADIS G., ROJAS-BRAVO C., KILPATRICK C.D., et al.
2019ApJ...871...31A 93           X         2 5 ~ Evolution of magnetized white dwarf binaries to Type Ia supernovae. ABLIMIT I. and MAEDA K.
2019ApJ...871...62G 280           X C       5 92 ~ Delayed circumstellar interaction for Type Ia SN 2015cp revealed by an HST ultraviolet imaging survey. GRAHAM M.L., HARRIS C.E., NUGENT P.E., et al.
2019ApJ...871..250H 1847   K A S   X C       38 13 ~ Spectral sequences of Type Ia supernovae. II. Carbon as a diagnostic tool for explosion mechanisms. HERINGER E., VAN KERKWIJK M.H., SIM S.A., et al.
2019ApJ...872...14Z 606           X C       12 13 ~ Observations of a fast-expanding and uv-bright Type Ia supernova SN 2013gs. ZHANG T., WANG X., ZHAO X., et al.
2019ApJ...872..191S 187           X C       3 17 ~ The two most recent thermonuclear supernovae in the Local Group: radio constraints on their progenitors and evolution. SARBADHICARY S.K., CHOMIUK L., BADENES C., et al.
2019ApJ...873L..18D 467           X C       9 11 ~ ZTF 18aaqeasu (SN2018byg): a massive helium-shell double detonation on a sub-Chandrasekhar-mass white dwarf. DE K., KASLIWAL M.M., POLIN A., et al.
2019ApJ...874...32R 19       D               2 28 ~ Think global, act local: the influence of environment age and host mass on Type Ia supernova light curves. ROSE B.M., GARNAVICH P.M. and BERG M.A.
2019ApJ...874...62S 93               F     1 19 ~ Properties of type-Ia supernova light curves. SUKHBOLD T.
2019ApJ...875L..14A 252       D     X C       5 16 ~ Carnegie supernova Project-II: using near-infrared spectroscopy to determine the location of the outer 56Ni in Type Ia supernovae. ASHALL C., HSIAO E.Y., HOEFLICH P., et al.
2019ApJ...877..152B 2594   K A     X C       55 10 ~ Red and reddened: ultraviolet through near-infrared observations of Type Ia supernova 2017erp. BROWN P.J., HOSSEINZADEH G., JHA S.W., et al.
2019ApJ...877L...4S 19       D               1 31 ~ Nebular Hα limits for fast declining SNe Ia. SAND D.J., AMARO R.C., MOE M., et al.
2019ApJ...878...86A 280           X C F     4 14 ~ A physical basis for the H-band blue-edge velocity and light-curve shape correlation in context of Type Ia supernova explosion physics. ASHALL C., HOEFLICH P., HSIAO E.Y., et al.
2019ApJ...878L..38T 373           X C       7 3 ~ Double detonations with thin, modestly enriched helium layers can make normal Type Ia supernovae. TOWNSLEY D.M., MILES B.J., SHEN K.J., et al.
2019ApJ...880L...4H 93             C       1 124 ~ Follow-up of the neutron star bearing gravitational-wave candidate events S190425z and S190426c with MMT and SOAR. HOSSEINZADEH G., COWPERTHWAITE P.S., GOMEZ S., et al.
2019ApJ...881...45K 47           X         1 22 ~ Evidence for sub-Chandrasekhar Type Ia supernovae from stellar abundances in dwarf galaxies. KIRBY E.N., XIE J.L., GUO R., et al.
2019ApJ...882...30L 933           X C       19 15 ~ Observations of Type Ia supernova 2014J for nearly 900 days and constraints on its progenitor system. LI W., WANG X., HU M., et al.
2019ApJ...882...34F 19       D               1 70 ~ The Carnegie-Chicago Hubble Program. VIII. An independent determination of the Hubble constant based on the tip of the red giant branch. FREEDMAN W.L., MADORE B.F., HATT D., et al.
2019ApJ...882..120W 19       D               1 210 ~ The cold and dusty circumstellar matter around fast-expanding Type Ia supernovae. WANG X., CHEN J., WANG L., et al.
2019ApJ...885...13T 93             C       1 20 ~ A rapidly declining transient discovered with the Subaru/Hyper Suprime-Cam. TOMINAGA N., MOROKUMA T., TANAKA M., et al.
2019ApJ...885..103T 47           X         1 15 ~ Double-detonation models for Type Ia supernovae: trigger of detonation in companion white dwarfs and signatures of companions' stripped-off materials. TANIKAWA A., NOMOTO K., NAKASATO N., et al.
2019ApJ...885..141B 168     A     X         4 16 ~ The Carnegie-Chicago Hubble Program. VII. The distance to M101 via the optical tip of the red giant branch method. BEATON R.L., SEIBERT M., HATT D., et al.
2019ApJ...886...58M 187           X         4 30 ~ High-velocity feature as the indicator of the stellar population of Type Ia supernovae. MENG X.-C.
2019ApJS..241...38S viz 19       D               2 220 ~ A comprehensive analysis of Spitzer supernovae. SZALAI T., ZSIROS S., FOX O.D., et al.
2019MNRAS.482.5651M 373           X C       7 14 ~ Subdwarf B stars as possible surviving companions in Type Ia supernova remnants. MENG X. and LI J.
2019MNRAS.483..628S 47           X         1 51 ~ Probing type Ia supernova properties using bolometric light curves from the Carnegie Supernova Project and the CfA Supernova Group. SCALZO R.A., PARENT E., BURNS C., et al.
2019MNRAS.483.1114B 653     A D     X C       14 25 ~ Narrow transient absorptions in late-time optical spectra of type Ia supernovae: evidence for large clumps of iron-rich ejecta? BLACK C.S., FESEN R.A. and PARRENT J.T.
2019MNRAS.484.1317K 233           X C       4 12 ~ Excluding supersoft X-ray sources as progenitors for four Type Ia supernovae in the Large Magellanic Cloud. KUUTTILA J., GILFANOV M., SEITENZAHL I.R., et al.
2019MNRAS.484.3941W 299       D     X   F     6 46 ~ Type Ia supernovae have two physical width-luminosity relations and they favour sub-Chandrasekhar and direct collision models - I. Bolometric. WYGODA N., ELBAZ Y. and KATZ B.
2019MNRAS.484.3951W 112       D         F     2 19 ~ Type Ia supernovae have two physical width-luminosity relations and they favour sub-Chandrasekhar and direct collision models - II. Colour evolution. WYGODA N., ELBAZ Y. and KATZ B.
2019MNRAS.484.4785M 2920   K A S   X C F     60 1 ~ Exploring the shell model of high-velocity features of Type Ia supernovae using TARDIS. MULLIGAN B.W., ZHANG K. and WHEELER J.C.
2019MNRAS.484L..79G 93           X         2 8 ~ Progenitor constraints on the Type Ia supernova SN 2014J from Hubble Space Telescope H β and [O III] observations. GRAUR O. and WOODS T.E.
2019MNRAS.486.5528L 47           X         1 2 ~ Constraining Type Ia supernova asymmetry with the gamma-ray escape time-scale. LEVANON N. and SOKER N.
2019MNRAS.486.5785S 327           X C       6 13 ~ Investigating the diversity of Type Ia supernova spectra with the open-source relational data base KAEPORA. SIEBERT M.R., FOLEY R.J., JONES D.O., et al.
2019MNRAS.487.1886C 1026           X   F     21 19 ~ Optical and UV studies of type Ia supernovae SN 2009ig and SN 2012cg. CHAKRADHARI N.K., SAHU D.K. and ANUPAMA G.C.
2019MNRAS.487.2372V 47           X         1 28 ~ ASASSN-18tb: a most unusual Type Ia supernova observed by TESS and SALT. VALLELY P.J., FAUSNAUGH M., JHA S.W., et al.
2019MNRAS.487.2505K 187           X   F     3 15 ~ Swift spectra of AT2018cow: a white dwarf tidal disruption event? KUIN N.P.M., WU K., OATES S., et al.
2019MNRAS.488.3949M 1288   K A S   X C       26 3 ~ Circumstellar properties of Type Ia supernovae from the helium star donor channel. MORIYA T.J., LIU D., WANG B., et al.
2019MNRAS.488.5473T 140           X         3 15 ~ SN 2012dn from early to late times: 09dc-like supernovae reassessed. TAUBENBERGER S., FLOERS A., VOGL C., et al.
2019MNRAS.489.3591P 47           X         1 164 ~ Anomaly detection in the Open Supernova Catalog. PRUZHINSKAYA M.V., MALANCHEV K.L., KORNILOV M.V., et al.
2019MNRAS.490.3882S 392       D S   X   F     7 182 ~ Lick Observatory Supernova Search follow-up program: photometry data release of 93 Type Ia supernovae. STAHL B.E., ZHENG W., DE JAEGER T., et al.
2019MNRAS.490L..21L 93               F     1 16 ~ G4.8+6.2, a possible kilonova remnant? LIU Y., ZOU Y.-C., JIANG B., et al.
2019PASP..131a4002H 327           X C       6 173 ~ Carnegie Supernova Project-II: the near-infrared spectroscopy program. HSIAO E.Y., PHILLIPS M.M., MARION G.H., et al.
2019PASP..131f8002B 140           X C       2 12 ~ Presto-Color: a photometric Survey cadence for explosive physics and fast transients. BIANCO F.B., DROUT M.R., GRAHAM M.L., et al.
2019RAA....19...57W 47           X         1 2 ~ Past and future of the central double-degenerate core of Henize 2-428. WU D.-H., LIU D.-D. and WANG B.
2019RAA....19..149W 47           X         1 23 ~ Lijiang 2.4-meter Telescope and its instruments. WANG C.-J., BAI J.-M., FAN Y.-F., et al.
2018A&A...609A..72D 108       D       C       3 82 39 Measuring the Hubble constant with Type Ia supernovae as near-infrared standard candles. DHAWAN S., JHA S.W. and LEIBUNDGUT B.
2018A&A...611A..58G viz 851           X C       18 26 11 Two transitional type Ia supernovae located in the Fornax cluster member NGC 1404: SN 2007on and SN 2011iv. GALL C., STRITZINGER M.D., ASHALL C., et al.
2018A&A...614A..71N viz 1165           X C       25 102 2 Understanding type Ia supernovae through their U-band spectra. NORDIN J., ALDERING G., ANTILOGUS P., et al.
2018A&A...615A..45S viz 63       D     X         2 118 1 Type Ia supernova Hubble diagram with near-infrared and optical observations. STANISHEV V., GOOBAR A., AMANULLAH R., et al.
2018A&A...619A.102D 45           X         1 6 ~ Nebular spectroscopy of SN 2014J: Detection of stable nickel in near-infrared spectra. DHAWAN S., FLORS A., LEIBUNDGUT B., et al.
2018A&A...620A.200F 90           X         2 14 ~ Limits on stable iron in Type Ia supernovae from near-infrared spectroscopy. FLORS A., SPYROMILIO J., MAGUIRE K., et al.
2018AJ....155..201W viz 18       D               3 81 6 The first data release from SweetSpot: 74 supernovae in 36 nights on WIYN+WHIRC. WEYANT A., WOOD-VASEY W.M., JOYCE R., et al.
2018ApJ...852...89Y 1076           X C       23 7 9 Late-time flattening of Type Ia supernova light curves: constraints from SN 2014J in M82. YANG Y., WANG L., BAADE D., et al.
2018ApJ...852..100M 1237   K A S   X C       26 9 11 Early observations of the Type Ia supernova iPTF 16abc: a case of interaction with nearby, unbound material and/or strong ejecta mixing. MILLER A.A., CAO Y., PIRO A.L., et al.
2018ApJ...852L...6B 253     A     X C       5 2 5 Multidimensional models of Type Ia supernova nebular spectra: strong emission lines from stripped companion gas rule out classic single-degenerate systems. BOTYANSZKI J., KASEN D. and PLEWA T.
2018ApJ...853..126R 45           X         1 56 24 Type Ia supernova distances at redshift >1.5 from the Hubble Space Telescope Multi-Cycle Treasury programs: the early expansion rate. RIESS A.G., RODNEY S.A., SCOLNIC D.M., et al.
2018ApJ...854...52S 513       D     X C       11 13 26 Sub-Chandrasekhar-mass white dwarf detonations revisited. SHEN K.J., KASEN D., MILES B.J., et al.
2018ApJ...854...55Y 45           X         1 18 3 Mapping circumstellar matter with polarized light: the case of supernova 2014J in M82. YANG Y., WANG L., BAADE D., et al.
2018ApJ...854..175I 90             C       1 48 6 A statistical approach to identify superluminous supernovae and probe their diversity. INSERRA C., PRAJS S., GUTIERREZ C.P., et al.
2018ApJ...855....2Q 90             C       1 63 10 Spectra of hydrogen-poor superluminous supernovae from the Palomar Transient Factory. QUIMBY R.M., DE CIA A., GAL-YAM A., et al.
2018ApJ...855....6S 359           X C       7 14 21 Strong evidence against a non-degenerate companion in SN 2012cg. SHAPPEE B.J., PIRO A.L., STANEK K.Z., et al.
2018ApJ...855L..18M 90           X         2 12 2 Why are peculiar Type Ia supernovae more likely to show the signature of a single-degenerate model? MENG X.-C. and HAN Z.-W.
2018ApJ...857...88J 851           X         19 8 3 Constraining Type Ia supernova progenitor scenarios with extremely late-time photometry of supernova SN 2013aa. JACOBSON-GALAN W.V., DIMITRIADIS G., FOLEY R.J., et al.
2018ApJ...858...13H 46           X         1 3 4 Magnetohydrodynamical effects on nuclear deflagration fronts in Type Ia supernovae. HRISTOV B., COLLINS D.C., HOEFLICH P., et al.
2018ApJ...859...24C 555       D     X C       12 34 5 SN 2012fr: ultraviolet, optical, and near-infrared light curves of a Type Ia supernova observed within a day of explosion. CONTRERAS C., PHILLIPS M.M., BURNS C.R., et al.
2018ApJ...859...79G 2150   K A D     X C       48 13 9 Observations of SN 2015F suggest a correlation between the intrinsic luminosity of Type Ia supernovae and the shape of their light curves >900 days after explosion. GRAUR O., ZUREK D.R., REST A., et al.
2018ApJ...861..143L 180           X C       3 6 9 Explosive nucleosynthesis in near-Chandrasekhar-mass white dwarf models for Type Ia supernovae: dependence on model parameters. LEUNG S.-C. and NOMOTO K.
2018ApJ...862..107B 179           X C       3 26 1 ASASSN-15nx: a luminous Type II supernova with a "perfect" linear decline. BOSE S., DONG S., KOCHANEK C.S., et al.
2018ApJ...863...20J 90             C       1 60 1 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.
2018ApJ...863...24S 269           X         6 4 1 Nebular spectroscopy of the "blue bump" Type Ia supernova 2017cbv. SAND D.J., GRAHAM M.L., BOTYANSZKI J., et al.
2018ApJ...863..120W 179           X C       3 13 2 Balmer-dominated shocks exclude hot progenitors for many Type Ia supernovae. WOODS T.E., GHAVAMIAN P., BADENES C., et al.
2018ApJ...863..176M 672           X C       14 9 1 Nucleosynthesis constraints on the explosion mechanism for Type Ia supernovae. MORI K., FAMIANO M.A., KAJINO T., et al.
2018ApJ...864L..35S 63       D     X         2 26 3 Red versus blue: early observations of thermonuclear supernovae reveal two distinct populations? STRITZINGER M.D., SHAPPEE B.J., PIRO A.L., et al.
2018ApJ...865..149J 108       D     X         3 54 2 Surface radioactivity or interactions? Multiple origins of early-excess Type Ia supernovae and associated subclasses. JIANG J.-A., DOI M., MAEDA K., et al.
2018ApJ...866...10G 448           X C       9 7 1 Late-time observations of ASASSN-14lp strengthen the case for a correlation between the peak luminosity of Type Ia supernovae and the shape of their late-time light curves. GRAUR O., ZUREK D.R., CARA M., et al.
2018ApJ...867...56B 63       D     X         2 29 1 The UltraViolet colors of Type Ia supernovae and their photospheric velocities. BROWN P.J., PERRY J.M., BEENY B.A., et al.
2018ApJ...868...90T 134           X         3 16 ~ Three-dimensional simulation of double detonations in the double-degenerate model for Type Ia supernovae and interaction of ejecta with a surviving white dwarf companion. TANIKAWA A., NOMOTO K. and NAKASATO N.
2018ApJ...869...56B viz 18       D               1 83 ~ The Carnegie Supernova Project: absolute calibration and the Hubble constant. BURNS C.R., PARENT E., PHILLIPS M.M., et al.
2018ApJ...869..162C 45           X         1 11 ~ Investigating the unusual spectroscopic time evolution in SN 2012fr. CAIN C., BARON E., PHILLIPS M.M., et al.
2018MNRAS.473..336B 45           X         1 20 6 X-ray emission from SN 2012ca: A Type Ia-CSM supernova explosion in a dense surrounding medium. BOCHENEK C.D., DWARKADAS V.V., SILVERMAN J.M., et al.
2018MNRAS.473.1918B 135           X C       2 8 8 Estimating dust distances to type Ia supernovae from colour excess time evolution. BULLA M., GOOBAR A., AMANULLAH R., et al.
2018MNRAS.473.4257C 493           X C F     9 23 ~ A spectroscopic look at the gravitationally lensed Type Ia supernova 2016geu at z = 0.409. CANO Z., SELSING J., HJORTH J., et al.
2018MNRAS.473.5641K 45           X         1 116 3 First results from GeMS/GSAOI for project SUNBIRD: Supernovae UNmasked By Infra-Red Detection. KOOL E.C., RYDER S., KANKARE E., et al.
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2013ApJ...773...49P 43           X         1 12 35 Evolution of post-impact remnant helium stars in type Ia supernova remnants within the single-degenerate scenario. PAN K.-C., RICKER P.M. and TAAM R.E.
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2013ApJ...775L..43T 43           X         1 8 20 [O i] λλ6300, 6364 in the nebular spectrum of a subluminous type Ia supernova. TAUBENBERGER S., KROMER M., PAKMOR R., et al.
2013ApJ...777...40M 370           X C       8 8 35 High-velocity line forming regions in the type Ia supernova 2009ig. MARION G.H., VINKO J., WHEELER J.C., et al.
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2013ApJ...779...23M 382       D     X         10 61 31 Grouping normal type Ia supernovae by UV to optical color differences. MILNE P.A., BROWN P.J., ROMING P.W.A., et al.
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2013MNRAS.431L..43J 814   K A D S   X C       19 11 23 Herschel limits on far-infrared emission from circumstellar dust around three nearby Type Ia supernovae. JOHANSSON J., AMANULLAH R. and GOOBAR A.
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2012ApJ...756....6P 42           X         1 13 29 The origin of Kepler's supernova remnant. PATNAUDE D.J., BADENES C., PARK S., et al.
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2012ApJ...760...21P 83           X         2 7 25 Evolution of post-impact companion stars in SN Ia remnants within the single-degenerate scenario. PAN K.-C., RICKER P.M. and TAAM R.E.
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2011ATel.3588....1S 121 T         X         2 2 8 Metallicity at Galactocentric Radius of Type Ia SN PTF 11kly in M 101. STOLL R., SHAPPEE B. and STANEK K.Z.
2011ATel.3589....1S 119 T         X         2 2 1 Pre-Explosion Chandra Observations of
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2011ATel.3590....1C 119 T         X         2 2 1 Swift/UVOT Observations of PTF 11kly. CENKO S.B., OFEK E.O. and NUGENT P.E.
2011ATel.3592....1F 238 T         X         5 3 1 Evidence for X-ray emission from the type Ia SN PTF 11kly. FOX D.B.
2011ATel.3593....1F 79 T                   1 3 1 Evidence for X-ray emission from the type Ia SN PTF 11kly (Erratum). FOX D.B.
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2011ATel.3598....1S 159 T         X         3 3 ~ Nova M101-1997-02 is not the progenitor of PTF 11kly, the recent type Ia supernova in M 101. SHAFTER A.W. and NELEMANS G.
2011ATel.3599....1M 79           X         2 1 1 Near Infrared Spectrum of SN Ia 2011fe Resembles Fast Decliners Observed A Week Before Maximum. MARION H.
2011ATel.3602....1H 159 T         X         3 2 3 Chandra Non-detection of X-ray Emission from PTF 11kly. HUGHES J.P., SODERBERG A. and SLANE P.
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2011ATel.3607....1I 120           X         3 1 2 Myungshin Im, Won-Kee Park, Changsu Choi, Yiseul Jeon, Ji-Hoon Kim (CEOU/SNU), Giseon Baek, Young-Seok Oh, Soojong Pak (Kyunghee Univ.) IM M., PARK W.-K., CHOI C., et al.
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2011ATel.3620....1K 318 T         X         7 2 1 RTT-150 optical follow-up observations of SN 2011fe (PTF 11kly). KHAMITOV I., BIKMAEV I., EKER Z., et al.
2011ATel.3623....1S 1 0 No progenitor detection for PTF11kly/SN2011fe in Hubble Space Telescope pre-explosion images. SMARTT S.J., FRASER M., KOTAK R., et al.
2011ATel.3642....1M 199 T         X         4 1 1 Continued Swift monitoring campaign of SN 2011fe. MARGUTTI R. and SODERBERG A.
2011ATel.3683....1I 120 T         X         2 2 7 Bounds to the gamma–ray flux emitted by
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