Add to ORKGMany young, massive stars are found in close binaries. Using population synthesis simulations we predict the likelihood of a companion star being present when these massive stars end their lives as core-collapse supernovae (SNe). We focus on stripped-envelope SNe, whose progenitors have lost their outer hydrogen and possibly helium layers before explosion. We use these results to interpret new Hubble Space Telescope observations of the site of the broad-lined Type Ic SN 2002ap, 14 years post-explosion. For a subsolar metallicity consistent with SN 2002ap, we expect a main-sequence (MS) companion present in about two thirds of all stripped-envelope SNe and a compact companion (likely a stripped helium star or a white dwarf/neutron star/black...
It is well-known that some massive stars evolve to an end state which results in the collapse of the...
Type Ibn supernovae (SNe Ibn) are intriguing stellar explosions whose spectra exhibit narrow helium ...
Type II supernovae (SNe) stem from the core collapse of massive (>8 M ⊙) stars. Due to their short l...
Many young, massive stars are found in close binaries. Using population synthesis simulations we pre...
Core-collapse supernovae (SNe), which mark the deaths of massive stars, are among the most powerful ...
The massive star origins for Type IIP supernovae (SNe) have been established through direct detectio...
For typical models of binary statistics, 50%-80% of core-collapse supernova (ccSN) progenitors are m...
Identifying the massive progenitor stars that give rise to core-collapse supernovae (SNe) is one of ...
Supernovae (SNe) are titanic explosions that end the life of stars. Fast expanding ejecta can create...
We present multi-wavelength observations of SN 2014C during the first 500 days. These observations r...
To place core-collapse supernovae (SNe) in context with the evolution of massive stars, it is necess...
Type Ia supernovae are thought to occur when a white dwarf made of carbon and oxygen accretes suffic...
Core-collapse supernovae (CCSNe) are an important part of the stellar evolution of massive stars. Ce...
Recent theoretical and numerical studies of Type Ia supernova explosion within the single-degenerate...
We investigate the fundamental properties of core-collapse Supernova (SN) progenitors from single st...
It is well-known that some massive stars evolve to an end state which results in the collapse of the...
Type Ibn supernovae (SNe Ibn) are intriguing stellar explosions whose spectra exhibit narrow helium ...
Type II supernovae (SNe) stem from the core collapse of massive (>8 M ⊙) stars. Due to their short l...
Many young, massive stars are found in close binaries. Using population synthesis simulations we pre...
Core-collapse supernovae (SNe), which mark the deaths of massive stars, are among the most powerful ...
The massive star origins for Type IIP supernovae (SNe) have been established through direct detectio...
For typical models of binary statistics, 50%-80% of core-collapse supernova (ccSN) progenitors are m...
Identifying the massive progenitor stars that give rise to core-collapse supernovae (SNe) is one of ...
Supernovae (SNe) are titanic explosions that end the life of stars. Fast expanding ejecta can create...
We present multi-wavelength observations of SN 2014C during the first 500 days. These observations r...
To place core-collapse supernovae (SNe) in context with the evolution of massive stars, it is necess...
Type Ia supernovae are thought to occur when a white dwarf made of carbon and oxygen accretes suffic...
Core-collapse supernovae (CCSNe) are an important part of the stellar evolution of massive stars. Ce...
Recent theoretical and numerical studies of Type Ia supernova explosion within the single-degenerate...
We investigate the fundamental properties of core-collapse Supernova (SN) progenitors from single st...
It is well-known that some massive stars evolve to an end state which results in the collapse of the...
Type Ibn supernovae (SNe Ibn) are intriguing stellar explosions whose spectra exhibit narrow helium ...
Type II supernovae (SNe) stem from the core collapse of massive (>8 M ⊙) stars. Due to their short l...