Add to ORKGWe present a detailed inhomogeneous chemical evolution study that considers for the first-time neutron star mergers as major r-process sources, and compare this scenario with the ones in which lower-mass (in the range 8-10 M⊙) or higher-mass core-collapse supernovae (with masses ≥20 M⊙) act as dominant r-process sites. We conclude that it is not possible at present to distinguish between the lower-mass and higher-mass supernovae scenarios within the framework of inhomogeneous chemical evolution. However, neutron-star mergers seem to be ruled out as the dominant r-process source, since their low rates of occurrence would lead to r-process enrichment that is not consistent with observation
The origin of the heaviest elements is still a matter of debate. For the rapid neutron capture proce...
For the origin of heavy r-process elements, different sources have been proposed, e.g., core-collaps...
For the origin of heavy r-process elements, different sources have been proposed, e.g., core-collaps...
For the production of r-process elements in our Galaxy, multiple sites have been discussed, among ot...
For the production of r-process elements in our Galaxy, multiple sites have been discussed, among ot...
For the production of r-process elements in our Galaxy, multiple sites have been discussed, among ot...
The astrophysical nature of r-process sites is a long standing mystery and many probable sources hav...
Probing the origin of r-process elements in the universe represents a multidisciplinary challenge. W...
The astrophysical nature of r-process sites is a long-standing mystery and many probable sources hav...
The astrophysical nature of r-process sites is a long-standing mystery and many probable sources hav...
The astrophysical nature of r-process sites is a long-standing mystery and many probable sources hav...
Rapid neutron capture process (r-process) elements have been detected in a large number of metal-poo...
Astrophysical site(s) of rapid neutron-capture process (r-process) is (are) not identified yet. Alth...
We quantify the stellar abundances of neutron-rich r-process nuclei in cosmological zoom-in simulati...
Probing the origin of r-process elements in the universe represents a multidisciplinary challenge. W...
The origin of the heaviest elements is still a matter of debate. For the rapid neutron capture proce...
For the origin of heavy r-process elements, different sources have been proposed, e.g., core-collaps...
For the origin of heavy r-process elements, different sources have been proposed, e.g., core-collaps...
For the production of r-process elements in our Galaxy, multiple sites have been discussed, among ot...
For the production of r-process elements in our Galaxy, multiple sites have been discussed, among ot...
For the production of r-process elements in our Galaxy, multiple sites have been discussed, among ot...
The astrophysical nature of r-process sites is a long standing mystery and many probable sources hav...
Probing the origin of r-process elements in the universe represents a multidisciplinary challenge. W...
The astrophysical nature of r-process sites is a long-standing mystery and many probable sources hav...
The astrophysical nature of r-process sites is a long-standing mystery and many probable sources hav...
The astrophysical nature of r-process sites is a long-standing mystery and many probable sources hav...
Rapid neutron capture process (r-process) elements have been detected in a large number of metal-poo...
Astrophysical site(s) of rapid neutron-capture process (r-process) is (are) not identified yet. Alth...
We quantify the stellar abundances of neutron-rich r-process nuclei in cosmological zoom-in simulati...
Probing the origin of r-process elements in the universe represents a multidisciplinary challenge. W...
The origin of the heaviest elements is still a matter of debate. For the rapid neutron capture proce...
For the origin of heavy r-process elements, different sources have been proposed, e.g., core-collaps...
For the origin of heavy r-process elements, different sources have been proposed, e.g., core-collaps...