4 research outputs found
Solar axions as an energy source and modulator of the Earth magnetic field
We show existence of strong negative correlation between the temporal
variations of magnetic field toroidal component of the solar tachocline (the
bottom of convective zone) and the Earth magnetic field (Y-component). The
possibility that hypothetical solar axions, which can transform into photons in
external electric or magnetic fields (the inverse Primakoff effect), can be the
instrument by which the magnetic field of convective zone of the Sun modulates
the magnetic field of the Earth is considered. We propose the axion mechanism
of "solar dynamo-geodynamo" connection, where an energy of axions, which form
in the Sun core, is modulated at first by the magnetic field of the solar
tachocline zone (due to the inverse coherent Primakoff effect) and after that
is absorbed in the liquid core of the Earth under influence of the terrestrial
magnetic field, thereby playing the role of an energy source and a modulator of
the Earth magnetic field. Within the framework of this mechanism new
estimations of the strength of an axion coupling to a photon (ga_gamma about
5*10^-9 GeV^-1) and the axion mass (ma ~ 30 eV) have been obtained.Comment: 13 pages, 3 figure
Solar axions as an energy source and modulator of the Earth magnetic field
We show existence of strong negative correlation between the temporal variations of magnetic field toroidal component of the solar tachocline (the bottom of convective zone) and the Earth magnetic field (Y-component). The possibility that hypothetical solar axions, which can transform into photons in external electric or magnetic fields (the inverse Primakoff effect), can be the instrument by which the magnetic field of convective zone of the Sun modulates the magnetic field of the Earth is considered. We propose the axion mechanism of Sun luminosity and “solar dynamo geo-dynamo” connection, where an energy of solar axions emitted in M1 transition in ⁵⁷Fe nuclei is modulated at first by the magnetic field of the solar tachocline zone (due to the inverse coherent Primakoff effect) and after that is resonance absorbed in the core of the Earth, thereby playing the role of an energy source and a modulator of the Earth magnetic field
On the role of longitudinal momenta in high energy hadron-hadron scattering
We demonstrate a new method for the calculation of inelastic scattering
cross-section, which in contrary to the Regge-based methods takes into account
the energy momentum conservation law. By virtue of this method it was shown
that the main contribution to integral expressing inelastic scattering
cross-sections comes not from the multi-Regge domain. In particular this leads
to the fact that accounting of longitudinal momenta contribution to
virtualities is sufficient and results in the new mechanism of cross-section
growth. The necessity of taking into account the large number of interference
contributions is shown and the approximate method for this purpose is
developed. By considering the interference contributions from a single fitting
constant achieved a qualitative agreement of the total and inelastic cross
sections with experimental data.Comment: 38 pages, 19 figures (A misspelled author's name corrected
KamLAND-experiment and soliton-like nuclear georeactor
We give an alternative description of the new data produced in the KamLAND experiment, assuming the existence of a natural nuclear reactor on the boundary of the liquid and solid phases of the Earth's core. Analyzing the uncertainty of antineutrino spectrum of georeactor origin, we show that the theoretical (which takes into account the soliton-like nuclear georeactor with power about 20 TW) reactor antineutrino spectrum describes with good accuracy the new experimental KamLAND-data. At the same time the parameters of mixing (Δm²₂₁=2.5х10⁻⁵ eV², tan²Θ₁₂=0.437) calculated within the framework of georeactor hypothesis are substantially closer to the data of solar flux SNO-experiment then the parameters of mixing obtained in KamLAND-experiment