Add to ORKGA precise test of the theory of stellar evolution can be performed by measuring the difference in average energy between the neutrino line produced by ${\rm ^7Be}$ electron capture in the solar interior and the corresponding neutrino line produced in a terrestrial laboratory. The high temperatures in the center of the sun broaden the line asymmetrically, FWHM = 1.6~keV, and cause an average energy shift of 1.3~keV. The width of the $^7$Be neutrino line should be taken into account in calculations of vacuum neutrino oscillations
The discrepancy of the measured solar neutrino flux compared to the predictions of the standard sola...
Nuclear fusion reactions take place in the core of the Sun. On our neighborhood star, hydrogen is be...
Terrestrial measurements of neutrinos produced by the Sun have been of great interest for over half ...
Measurements of the interaction rates of the solar neutrino lines of ^7Be and pep can be used, indep...
About 99 per cent of solar energy is produced through sequences of nuclear reactions that convert hy...
The particle kinetic energies of pp fusion in the sun (Gamow Energy) produce small changes in the en...
On the basis of present solar neutrino observations and relaxing the constraints from solar models i...
The $^8$B solar neutrino flux as measured by Super-Kamiokande is consistent with the $^{37}$Ar produ...
By comparing neutrino fluxes and central temperatures calculated from 1000 detailed numerical solar ...
The Sun is a typical main sequence star that generates its energy via the fusion of hydrogen into he...
International audienceAbout 99 per cent of solar energy is produced through sequences of nuclear rea...
An improved standard solar model has been used to calculate the fluxes of standard solar neutrinos. ...
For standard neutrinos, recent solar neutrino results together with the assumption of a nuclear powe...
Measuring the 7Be solar neutrino flux is crucial towards solving the solar neutrino puzzle. The Bore...
Context. Electron-capture on 7Be is the main production channel for 7Li in several astrophysical env...
The discrepancy of the measured solar neutrino flux compared to the predictions of the standard sola...
Nuclear fusion reactions take place in the core of the Sun. On our neighborhood star, hydrogen is be...
Terrestrial measurements of neutrinos produced by the Sun have been of great interest for over half ...
Measurements of the interaction rates of the solar neutrino lines of ^7Be and pep can be used, indep...
About 99 per cent of solar energy is produced through sequences of nuclear reactions that convert hy...
The particle kinetic energies of pp fusion in the sun (Gamow Energy) produce small changes in the en...
On the basis of present solar neutrino observations and relaxing the constraints from solar models i...
The $^8$B solar neutrino flux as measured by Super-Kamiokande is consistent with the $^{37}$Ar produ...
By comparing neutrino fluxes and central temperatures calculated from 1000 detailed numerical solar ...
The Sun is a typical main sequence star that generates its energy via the fusion of hydrogen into he...
International audienceAbout 99 per cent of solar energy is produced through sequences of nuclear rea...
An improved standard solar model has been used to calculate the fluxes of standard solar neutrinos. ...
For standard neutrinos, recent solar neutrino results together with the assumption of a nuclear powe...
Measuring the 7Be solar neutrino flux is crucial towards solving the solar neutrino puzzle. The Bore...
Context. Electron-capture on 7Be is the main production channel for 7Li in several astrophysical env...
The discrepancy of the measured solar neutrino flux compared to the predictions of the standard sola...
Nuclear fusion reactions take place in the core of the Sun. On our neighborhood star, hydrogen is be...
Terrestrial measurements of neutrinos produced by the Sun have been of great interest for over half ...