Add to ORKGAbstract. We discuss the possibility whether superheavy elements can be produced in Nature by the astro-physical rapid neutron capture process. To this end we have performed fully dynamical network r-process calculations assuming an environment with neutron-to-seed ratio large enough to produce superheavy nu-clei. Our calculations include two sets of nuclear masses and fission barriers and include all possible fission channels and the associated fission yield distributions. Our calculations produce superheavy nuclei with A ≈ 300 that however decay on timescales of days. PACS. 26.30.Hj r-process – 27.90.+b Properties nuclei with A ≥ 220 – 25.85.-w Fission reactions
The synthesis of superheavy elements stimulates the effort to study the peculiarities of the complet...
Abstract- New attempts have been made to synthesize superheavy elements (SHE) by nuclear reactions t...
This article addresses three of the four nucleosynthesis processes involved in producing heavy nucle...
We discuss the possibility whether superheavy elements can be produced in Nature by the astrophysica...
It is well known that in fusion reactions one may get only neutron deficient superheavy nuclei locat...
The production of super-heavy transuranium elements by stellar nucleosynthesis processes remains an ...
Superheavy elements have been searched for by neutron induced fission of mass separated samples. Var...
The production of about half of the heavy elements found in nature is assigned to a specific astroph...
We address the problem of the origin of heavier and super heavy elements in nature. Believing rapid ...
Abstract. There are only 3 methods for the production of heavy and superheavy (SH) nuclei, namely, f...
Rapid neutron capture in stellar explosions is responsible for the heaviest elements in nature, up t...
Abstract. Low values of the fusion cross sections and very short half-lives of nuclei with Z>120 ...
There are only 3 methods for the production of heavy and superheavy (SH) nuclei, namely, fusion reac...
About half of the nuclei heavier than iron observed in nature are produced by the so-called rapid ne...
About half of the nuclei heavier than iron observed in nature are produced by the socalled rapid neu...
The synthesis of superheavy elements stimulates the effort to study the peculiarities of the complet...
Abstract- New attempts have been made to synthesize superheavy elements (SHE) by nuclear reactions t...
This article addresses three of the four nucleosynthesis processes involved in producing heavy nucle...
We discuss the possibility whether superheavy elements can be produced in Nature by the astrophysica...
It is well known that in fusion reactions one may get only neutron deficient superheavy nuclei locat...
The production of super-heavy transuranium elements by stellar nucleosynthesis processes remains an ...
Superheavy elements have been searched for by neutron induced fission of mass separated samples. Var...
The production of about half of the heavy elements found in nature is assigned to a specific astroph...
We address the problem of the origin of heavier and super heavy elements in nature. Believing rapid ...
Abstract. There are only 3 methods for the production of heavy and superheavy (SH) nuclei, namely, f...
Rapid neutron capture in stellar explosions is responsible for the heaviest elements in nature, up t...
Abstract. Low values of the fusion cross sections and very short half-lives of nuclei with Z>120 ...
There are only 3 methods for the production of heavy and superheavy (SH) nuclei, namely, fusion reac...
About half of the nuclei heavier than iron observed in nature are produced by the so-called rapid ne...
About half of the nuclei heavier than iron observed in nature are produced by the socalled rapid neu...
The synthesis of superheavy elements stimulates the effort to study the peculiarities of the complet...
Abstract- New attempts have been made to synthesize superheavy elements (SHE) by nuclear reactions t...
This article addresses three of the four nucleosynthesis processes involved in producing heavy nucle...