Baryonium Dark Matter: Events with Circle Configurations in the Atmosphere and on the Surface of Earth
Author:
O. I. Piskounova
Keyword:
High Energy Physics - Phenomenology, High Energy Physics - Phenomenology (hep-ph), High Energy Physics - Experiment (hep-ex)
journal:
10.13140/RG.2.2.33734.24640
date:
2023-09-25 16:00:00
Abstract
This research supposes the parallel study of Baryonium Dark Matter (BDM) manifestations in astroparticle collision in the atmosphere as well as among the traces of the massive objects that fall on the surface of the Earth. Characteristics of BDM disintegration events are able to be analyzed with a similar technique as for hadroproproduction data on colliders. The HE event that was detected in the stratosphere in 1975 differs from the collision of nuclei. The signatures of such events are 1) the circle distribution of heavy secondary hadrons with almost nothing inside the ring and 2) the presence of heavy secondary particles with a mass out of range of known hadrons. The BDM tori that disintegrate for a few lower-mass BDMs in the atmosphere do show the circle signature. The same signatures should be seen at super-heavy BDM collapses on the Earth. The traces of such events are seen as pits or shafts in the underground rock, which are organized in the circles. There are at least two pieces of evidence of such holes: cenotes on the Yucatan peninsula (Mexico) and pits in Durrington Walls (England). In both phenomena, the vertical round pits in the rock with a depth from 5 to 50 meters had been laid out in circles. In addition, a single round hole in the ground can be seen in Moschovi in the Balkans, where such shafts have been reused for the tumuli in the Early Helladic ages. These super heavy BDM collapses differ from the meteorite crash, because BDMs are not forming craters. The existence of these places around the globe indicates the rare likelihood of meeting the supermassive BDM in proximity to Earth. The Tunguska meteorite could also be a BDM collapse. Finally, some suggestions are made about the production of BDM with the jets from giant active Supermassive Black Holes (SMBH) in the Universe.