Showing 1–20 of 52 results
/ Date/ Name
Mar 20, 2019Sensitivity of Type Ia supernovae to electron capture ratesJan 20, 2009Pulsating reverse detonation models of Type Ia supernovae. II: ExplosionJan 13, 2004Explosion models for thermonuclear supernovae resulting from different ignition conditionsOct 31, 2018SNR-calibrated Type Ia supernova modelsApr 9, 2012Sensitivity study of explosive nucleosynthesis in Type Ia supernovae: I. Modification of individual thermonuclear reaction ratesOct 25, 2010The impact of chemical differentiation of white dwarfs on thermonuclear supernovaeJul 2, 2019$^{16}O(p,α)^{13}N$ makes explosive oxygen burning sensitive to the metallicity of the progenitors of type Ia supernovaeFeb 19, 2020The accuracy of post-processing nucleosynthesisJan 20, 2009Pulsating reverse detonation models of Type Ia supernovae. I: Detonation ignitionSep 8, 2022Chandrasekhar-mass white dwarfs are the progenitors of a small fraction of Type Ia supernovae according to nucleosythesis constraintsFeb 8, 2011Is the metallicity of their hosts a good measure of the metallicity of Type Ia supernovae?Apr 3, 2006Beyond the bubble catastrophe of Type Ia supernovae: Pulsating Reverse Detonation modelsDec 4, 2007A Three-Dimensional Picture of the Delayed-Detonation Model of Type Ia SupernovaeJul 9, 2018Chandrasekhar and sub-Chandrasekhar models for the X-ray emission of Type Ia supernova remnants (I): Bulk propertiesDec 6, 2021Pre-explosive accretion and simmering phases of Type Ia SupernovaeMay 9, 2022Search for gamma-ray emission from a galactic supernova with the anticoincidence system of SPIFeb 21, 2013A Super-Solar Metallicity for the Progenitor of Kepler's SupernovaJan 7, 2004High temperature combustion: Approaching equilibrium using nuclear networksOct 13, 2017Evidence for a Sub-Chandrasekhar Mass Type~Ia Supernova in the Ursa Minor Dwarf GalaxyJul 28, 2025A Classification Scheme for X-ray Bright Type Ia Supernova Remnants Based on Their Circumstellar Interaction