Two years of detecting dark matter objects: The solar system members

Abstract

With a probability greater than 99% there are grounds to believe that our works on the detection of dark electric matter objects (daemons), which were launched in 1996, are crowned with success. The daemons are the relic elementary Planckian black holes $(m approx 30, mu hbox {g})$ carrying a stable electric charge $Z = 10e$ . During the last 2 years, a detector made of two horizontal ZnS(Ag) screens of 1 m 2 area has been recording the correlated time-shifted scintillations corresponding to flux $f_{oplus}approx 10^{-5},hbox{m}^{-2},hbox {s}^{-1}$ of extraordinary penetrating nuclear-active particles which moved both downwards and upwards with a velocity of only about 5-30 km s −1 . The flux experiences seasonal variations with maxima supposedly corresponding to the Earth transition through the shadow and antishadow created by the Sun in its motion relative to the Galaxy disc daemon population. An accumulation of negative daemons, which stimulate the proton decay in about $1, mu hbox{s}$ inside the Earth and the Sun is capable of explaining a many facts that have previously not been understood.