The Sun emits about 3·10431H per year in the solar wind (SW). Solar luminosity and the outflow of SW-protons come from the collapsed supernova core. a neutron star (NS), on which the Sun formed. The universal cradle of the nuclides indicates that the energy of each neutron in the Sun\u27s central NS exceeds that of a free neutron by ≈10-22 MeV. Solar luminosity and SW-protons are generated by a series of reactions: (a) escape of neutrons from the central NS, (b) decay of free neutrons or their capture by heavier nuclides, (c) fusion and upward migration of H+ through material that accreted on the NS, and (d) escape of H+ in the SW
The general features of the solar particle composition now seem to be clear. The two most abundant c...
Gamma-rays and neutrons are the only sources of information on energetic ions present during solar f...
The results of precise analysis of elements and isotopes in meteorites, comets, the Earth, the Moon,...
The abundance pattern of s-process nuclides confirms severe mass separation in the Sun and in the pa...
The Sun is a plasma diffuser that selectively moves light elements like H and He and the lighter iso...
Abstract—The Sun is a plasma diffuser that selectively moves light elements like H and He and the li...
Nuclear systematics and the abundance of elements and isotopes in meteorites, in planets, in the sol...
Nuclear systematics and the abundance of elements and isotopes in meteorites, in planets, in the sol...
Systematic properties of heavy nuclides reveal a fine structure in Coulomb energy that parallels var...
A historical summary of observations since 1960 raises questions about the standard solar model (SSM...
This book presents the first comprehensive compilation and review of the extensive body of experimen...
The potential energy of a nuclide is enhanced by about 10 MeV per nucleon from the repulsion between...
Abstract: In association with the large solar flare of April 15th 2001, the Chacaltaya neutron monit...
Abstract: The X17.0 solar flare of September 07, 2005 released high-energy neutrons that were detect...
Formation of the Solar System from heterogeneous debris of a supernova (SN) that exploded 5 billion ...
The general features of the solar particle composition now seem to be clear. The two most abundant c...
Gamma-rays and neutrons are the only sources of information on energetic ions present during solar f...
The results of precise analysis of elements and isotopes in meteorites, comets, the Earth, the Moon,...
The abundance pattern of s-process nuclides confirms severe mass separation in the Sun and in the pa...
The Sun is a plasma diffuser that selectively moves light elements like H and He and the lighter iso...
Abstract—The Sun is a plasma diffuser that selectively moves light elements like H and He and the li...
Nuclear systematics and the abundance of elements and isotopes in meteorites, in planets, in the sol...
Nuclear systematics and the abundance of elements and isotopes in meteorites, in planets, in the sol...
Systematic properties of heavy nuclides reveal a fine structure in Coulomb energy that parallels var...
A historical summary of observations since 1960 raises questions about the standard solar model (SSM...
This book presents the first comprehensive compilation and review of the extensive body of experimen...
The potential energy of a nuclide is enhanced by about 10 MeV per nucleon from the repulsion between...
Abstract: In association with the large solar flare of April 15th 2001, the Chacaltaya neutron monit...
Abstract: The X17.0 solar flare of September 07, 2005 released high-energy neutrons that were detect...
Formation of the Solar System from heterogeneous debris of a supernova (SN) that exploded 5 billion ...
The general features of the solar particle composition now seem to be clear. The two most abundant c...
Gamma-rays and neutrons are the only sources of information on energetic ions present during solar f...
The results of precise analysis of elements and isotopes in meteorites, comets, the Earth, the Moon,...