SN 2012hn , the SIMBAD biblio

SN 2012hn , the SIMBAD biblio (24 results) C.D.S. - SIMBAD4 rel 1.7 - 2020.11.25CET04:25:35


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Title First 3 Authors
2020A&A...635A.186P 606           X C       12 33 ~ The rise and fall of an extraordinary Ca-rich transient. The discovery of ATLAS19dqr/SN 2019bkc. PRENTICE S.J., MAGUIRE K., FLORS A., et al.
2020ApJ...896..165J 93           X         2 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...898..166J 47           X         1 32 ~ SN 2019ehk: a double-peaked Ca-rich transient with luminous X-ray emission and shock-ionized spectral features. JACOBSON-GALAN W.V., MARGUTTI R., KILPATRICK C.D., et al.
2020MNRAS.497..246G 140           X         3 14 ~ AT2018kzr: the merger of an oxygen-neon white dwarf and a neutron star or black hole. GILLANDERS J.H., SIM S.A. and SMARTT S.J.
2019ApJ...887..180S 63       D     X         2 20 ~ The progenitors of calcium-strong transients. SHEN K.J., QUATAERT E. and PAKMOR R.
2018ApJ...863..109Z viz 653           X C       14 11 ~ Optical observations of the young Type Ic supernova SN 2014L in M99. ZHANG J., WANG X., VINKO J., et al.
2018ApJ...866...72D 87           X         2 37 ~ IPTF 16hgs: a double-peaked Ca-rich gap transient in a metal-poor, star-forming dwarf galaxy. DE K., KASLIWAL M.M., CANTWELL T., et al.
2018MNRAS.475L.111S 87           X         2 7 ~ Chandra X-ray constraints on the candidate Ca-rich gap transient SN 2016hnk. SELL P.H., ARUR K., MACCARONE T.J., et al.
2018MNRAS.477.3449K 47           X         1 3 9 Tidal disruption of a white dwarf by a black hole: the diversity of nucleosynthesis, explosion energy, and the fate of debris streams. KAWANA K., TANIKAWA A. and YOSHIDA N.
2018Sci...362..201D viz 34 ~ A hot and fast ultra-stripped supernova that likely formed a compact neutron star binary. DE K., KASLIWAL M.M., OFEK E.O., et al.
2017ApJ...836...60L viz 170           X         4 32 11 Two new calcium-rich gap transients in group and cluster environments. LUNNAN R., KASLIWAL M.M., CAO Y., et al.
2017ApJ...846...50M 485       D     X C       11 40 6 IPTF15eqv: multiwavelength expose of a peculiar calcium-rich transient. MILISAVLJEVIC D., PATNAUDE D.J., RAYMOND J.C., et al.
2017MNRAS.468.4815G 43           X         1 17 4 White dwarf dynamical interactions and fast optical transients. GARCIA-BERRO E., BADENES C., AZNAR-SIGUAN G., et al.
2016MNRAS.458.1768L 42           X         1 18 15 Hubble Space Telescope observations of the host galaxies and environments of calcium-rich supernovae. LYMAN J.D., LEVAN A.J., JAMES P.A., et al.
2015A&A...579A..40S viz 83               F     1 49 95 PESSTO: survey description and products from the first data release by the Public ESO Spectroscopic Survey of Transient Objects. SMARTT S.J., VALENTI S., FRASER M., et al.
2015MNRAS.450.4198S 519     A S   X C F     10 17 16 Calcium-rich gap transients: tidal detonations of white dwarfs? SELL P.H., MACCARONE T.J., KOTAK R., et al.
2015MNRAS.452.2463F 140   K   D     X         4 39 28 Kinematics and host-galaxy properties suggest a nuclear origin for calcium-rich supernova progenitors. FOLEY R.J.
2014A&A...561A.146S viz 42           X         1 28 37 Optical and near-IR observations of the faint and fast 2008ha-like supernova 2010ae. STRITZINGER M.D., HSIAO E., VALENTI S., et al.
2014ApJ...786..134M 82             C       1 34 35 Hubble Space Telescope and ground-based observations of the type Iax supernovae SN 2005hk and SN 2008A. McCULLY C., JHA S.W., FOLEY R.J., et al.
2014ApJ...795..142G viz 162           X C       3 448 7 Defining photometric peculiar type Ia supernovae. GONZALEZ-GAITAN S., HSIAO E.Y., PIGNATA G., et al.
2014MNRAS.437.1519V 3859 T   A D S   X C       93 27 36 PESSTO monitoring of
SN 2012hn: further heterogeneity among faint Type I supernovae.
VALENTI S., YUAN F., TAUBENBERGER S., et al.
2014MNRAS.443.2372A 204           X C F     3 5 7 On the possible observational signatures of white dwarf dynamical interactions. AZNAR-SIGUAN G., GARCIA-BERRO E., MAGNIEN M., et al.
2014MNRAS.444.2157L 788       D     X C       19 34 23 The progenitors of calcium-rich transients are not formed in situ. LYMAN J.D., LEVAN A.J., CHURCH R.P., et al.
2013MNRAS.434..527L 337       D     X   F     8 72 40 Environment-derived constraints on the progenitors of low-luminosity type I supernovae. LYMAN J.D., JAMES P.A., PERETS H.B., et al.

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2020.11.25-04:25:35

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