6533b82efe1ef96bd1294509

RESEARCH PRODUCT

Astrophysical conditions for an r-process in the high-entropy wind scenario of type II supernovae

C. FreiburghausB. PfeifferK.-l. KratzFriedrich-karl ThielemannThomas RauscherK. Farouqi

subject

PhysicsShock waveNuclear physicsNuclear and High Energy PhysicsSupernovaNeutron starBubbler-processEntropy (information theory)NeutronAstrophysicsNuclear Experiment

description

Within a full dynamical parameter study including freezeout effects, we have determined the astrophysical conditions for an r-process in the so-called ``neutrino-wind`` scenario of core-collapse type II supernovae (SNII). We have started our calculations after the total photo disintegration of the matter above the nascent neutron star at 9 (.) 101 Kelvin with protons and neutrons. We have used the charged-particle network of Thielemann and the r-process code of Freiburghaus, combined with the NON-SMOKER neutron-capture rates of Rauscher, nuclear masses from the ETFS1-Q mass model and recent experimental and theoretical gross beta-decay properties. Using the three parameters V-exp (expansion speed of the shock wave), S (entropy of the bubble) and the neutron-to-proton ratio Y-e, we show that the above quantities have to fulfill specific conditions in order to make a successful r-process. According to observations and hydrodynamical simulations, respectively, a realistic value for Vexp is 7500 km/s, and Y>0.5.

yearjournalcountryeditionlanguage
2005-07-01Nuclear Physics A
https://doi.org/10.1016/j.nuclphysa.2005.05.187