We have updated the four CHIMERA simulations for 12-25 solar mass progenitors and provide some details and downloadable content on this page.
These models (designated Series B) are started from the pre-supernova progenitors of Woosley & Heger (2007) using 256 angular (theta) zones and 512 radial zones. The initial state extends to 20000-30000 km, which is in the oxygen-rich layers of the progenitor. We use a modern and detailed neutrino-matter interaction set and the Lattimer-Swesty K=220 MeV nuclear matter equation of state. We use an axisymmetric spherical-polar (r-theta) grid and evolve the models from collapse, through core bounce, to shock revival and explosion.
The four simulations, designated B12-WH07, B15-WH07, B20-WH07, and B25-WH07 are initialized from the 12, 15, 20, and 25 solar mass Woosley-Heger progenitors respectively.
| Model | Progenitor |
|---|---|
| B12-WH07 | 12 solar mass |
| B15-WH07 | 15 solar mass |
| B20-WH07 | 20 solar mass |
| B25-WH07 | 25 solar mass |
Paper available at: arXiv:1212.1747
These models are similar, but not identical to previous simulations (retroactively designated Series A) reported in Bruenn et al. (2009). Relative to Series A, these models (Series B) have several improvements and changes to the code and input physics. These include:
Series B models have 512 radial zones (rather than 256) and extend further out into the progenitor.
Series B models use the K=220 MeV version of the Lattimer-Swesty equation of state (rather than K=180 MeV). This reflects better the revised upper limit for neutron stars.
Series B models include neutrino scattering on positrons. (Though this is likely of little impact.)
Paper: Bruenn et al. 2012, submitted to ApJL, arXiv:1212.1747
Progenitors: Woosley & Heger 2007, Phys. Rep., 442 269
Dense nuclear EoS: Lattimer & Swesty 1991, Nuc. Phys. A, 535, 331