364 research outputs found
Heat flow of the Earth and resonant capture of solar 57-Fe axions
In a very conservative approach, supposing that total heat flow of the Earth
is exclusively due to resonant capture inside the Earth of axions, emitted by
57-Fe nuclei on Sun, we obtain limit on mass of hadronic axion: m_a<1.8 keV.
Taking into account release of heat from decays of 40-K, 232-Th, 238-U inside
the Earth, this estimation could be improved to the value: m_a<1.6 keV. Both
the values are less restrictive than limits set in devoted experiments to
search for 57-Fe axions (m_a<216-745 eV), but are much better than limits
obtained in experiments with 83-Kr (m_a<5.5 keV) and 7-Li (m_a<13.9-32 keV).Comment: 8 page
The velocity peaks in the cold dark matter spectrum on Earth
The cold dark matter spectrum on earth is expected to have peaks in velocity
space. We obtain estimates for the sizes and locations of these peaks. To this
end we have generalized the secondary infall model of galactic halo formation
to include angular momentum of the dark matter particles. This new model is
still spherically symmetric and it has self-similar solutions. Our results are
relevant to direct dark matter search experiments.Comment: 12 pages including 1 table and 4 figures, LaTeX, REVTEX 3.0 versio
The secondary infall model of galactic halo formation and the spectrum of cold dark matter particles on Earth
The spectrum of cold dark matter particles on Earth is expected to have peaks
in velocity space associated with particles which are falling onto the Galaxy
for the first time and with particles which have fallen in and out of the
Galaxy only a small number of times in the past. We obtain estimates for the
velocity magnitudes and the local densities of the particles in these peaks. To
this end we use the secondary infall model of galactic halo formation which we
have generalized to take account of the angular momentum of the dark matter
particles. The new model is still spherically symmetric and it admits
self-similar solutions. In the absence of angular momentum, the model produces
flat rotation curves for a large range of values of a parameter
which is related to the spectrum of primordial density perturbations. We find
that the presence of angular momentum produces an effective core radius, i.e.
it makes the contribution of the halo to the rotation curve go to zero at zero
radius. The model provides a detailed description of the large scale properties
of galactic halos including their density profiles, their extent and total
mass. We obtain predictions for the kinetic energies of the particles in the
velocity peaks and estimates for their local densities as functions of the
amount of angular momentum, the age of the universe and .Comment: LaTeX, 39 pages including 18 figure
Searching for energetic cosmic axions in a laboratory experiment: testing the PVLAS anomaly
Astrophysical sources of energetic gamma rays provide the right conditions
for maximal mixing between (pseudo)scalar (axion-like) particles and photons if
their coupling is as strong as suggested by the PVLAS claim. This is
independent of whether or not the axion interaction is standard at all energies
or becomes supressed in the extreme conditions of the stellar interior. The
flux of such particles through the Earth could be observed using a metre long,
Tesla strength superconducting solenoid thus testing the axion interpretation
of the PVLAS anomaly. The rate of events in CAST caused by axions from the Crab
pulsar is also estimated for the PVLAS-favoured parameters.Comment: 5 pages, 3 figur
- …