Add to ORKGNuclear systematics and the abundance of elements and isotopes in meteorites, in planets, in the solar photosphere, in the solar wind, and in solar flares are used to estimate the abundance of elements in the Sun. The results indicate that 56Fe, the decay product of doubly-magic 56Ni, is the Sun’s most abundant nuclide. The next most abundant nuclide is the doubly-magic 16O. The most abundant elements- Fe, Ni, O, Si, S, Mg, and Ca- are the even-Z elements that HARKINS1 found to comprise ffflfiffi! #"$ff!%& " ff ' (#"$ff)"* bound nucleons- Li, Be and B- further confirming the proposed link1 between abundance and nuclear structure, with one conspicuous and important exception. Diffusion enr...
The chemical composition of the Sun is requested in the context of various studies in astrophysics, ...
In this work we present differential chemical abundances\ud of neutron-capture elements (Z >30) in s...
Half a century has passed since the foundation of nuclear astrophysics. Since then, this discipline ...
Nuclear systematics and the abundance of elements and isotopes in meteorites, in planets, in the sol...
The abundance pattern of s-process nuclides confirms severe mass separation in the Sun and in the pa...
Mass separation in the Sun may explain a serious difficulty that has plagued nuclear astrophysics fo...
Solar photospheric and meteoritic CI chondrite abundance determinations for all elements are summari...
Context.The knowledge of isotopic and elemental abundances of the pristine solar system material p...
We redetermine the abundances of all iron group nuclei in the Sun, based on neutral and singly-ionis...
We redetermine the abundances of all iron group nuclei in the Sun, based on neutral and singly-ionis...
We redetermine the abundances of all iron group nuclei in the Sun, based on neutral and si...
We re-evaluate the abundances of the elements in the Sun from copper (Z = 29) to thorium (Z = 90). O...
[[abstract]]The presence of two new extinct nuclides 26Al and 107Pd with half-lives ∼106 years in th...
The Sun emits about 3·10431H per year in the solar wind (SW). Solar luminosity and the outflow of SW...
[[abstract]]It is pointed out that radioactive nuclides with mean lives much shorter than the age of...
The chemical composition of the Sun is requested in the context of various studies in astrophysics, ...
In this work we present differential chemical abundances\ud of neutron-capture elements (Z >30) in s...
Half a century has passed since the foundation of nuclear astrophysics. Since then, this discipline ...
Nuclear systematics and the abundance of elements and isotopes in meteorites, in planets, in the sol...
The abundance pattern of s-process nuclides confirms severe mass separation in the Sun and in the pa...
Mass separation in the Sun may explain a serious difficulty that has plagued nuclear astrophysics fo...
Solar photospheric and meteoritic CI chondrite abundance determinations for all elements are summari...
Context.The knowledge of isotopic and elemental abundances of the pristine solar system material p...
We redetermine the abundances of all iron group nuclei in the Sun, based on neutral and singly-ionis...
We redetermine the abundances of all iron group nuclei in the Sun, based on neutral and singly-ionis...
We redetermine the abundances of all iron group nuclei in the Sun, based on neutral and si...
We re-evaluate the abundances of the elements in the Sun from copper (Z = 29) to thorium (Z = 90). O...
[[abstract]]The presence of two new extinct nuclides 26Al and 107Pd with half-lives ∼106 years in th...
The Sun emits about 3·10431H per year in the solar wind (SW). Solar luminosity and the outflow of SW...
[[abstract]]It is pointed out that radioactive nuclides with mean lives much shorter than the age of...
The chemical composition of the Sun is requested in the context of various studies in astrophysics, ...
In this work we present differential chemical abundances\ud of neutron-capture elements (Z >30) in s...
Half a century has passed since the foundation of nuclear astrophysics. Since then, this discipline ...