Showing 1–20 of 155 results
/ Date/ Name
Jun 21, 2023Modeling of the nebular-phase spectral evolution of stripped-envelope supernovae. New grids from 100 to 450 daysMay 24, 2012On the nature of supernovae Ib and IcNov 5, 2020Radiative-transfer modeling of supernovae in the nebular-phase. A novel treatment of chemical mixing in spherical symmetryJan 6, 2018Supernovae from massive stars with extended tenuous envelopesOct 18, 2005Quantitative spectroscopic analysis of and distance to SN1999emApr 2, 2008SN 1994W: An Interacting Supernova or Two Interacting Shells?Oct 29, 2013Constraints on the explosion mechanism and progenitors of type Ia supernovaeAug 25, 2024The long-term influence of a magnetar power in stripped-envelope supernovae. Radiative-transfer modeling of He-star explosions from 1 to 10 yearsDec 18, 2018Supernovae from blue supergiant progenitors: What a mess!Aug 6, 2012Super-luminous supernovae: 56Ni power versus magnetar radiationMay 27, 2021The explosion of 9$-$29$M_\odot$ stars as Type II supernovae : results from radiative-transfer modeling at one year after explosionAug 29, 2013Critical ingredients of supernova Ia radiative-transfer modelingDec 12, 2017Super-luminous Type II supernovae powered by magnetarsMar 18, 2015Numerical simulations of super-luminous supernovae of type IInFeb 18, 2016Two-dimensional radiation-hydrodynamics simulations of super-luminous interacting supernovae of type IInOct 27, 2024Probing red-supergiant atmospheres and winds with early-time high-cadence high-resolution type II supernova spectraJul 5, 2020Radiative-transfer modeling of nebular-phase type II supernovae. Dependencies on progenitor and explosion propertiesMar 12, 2019The difficulty of inferring progenitor masses from Type II-Plateau supernova light curvesJul 4, 2019Influence of macroclumping on type II supernova light curvesSep 27, 2022Using LSST late-time photometry to constrain Type Ibc supernovae and their progenitors