Invisible Bubbles with Liquid Wall from Dark Plasma of the Sun§

Abstract

Sapogin V.G and Sapogin K. V

The article presents fragments of canonical physics of mass particles’ collective interaction. Equations of self- consistent statics of mass particles and their solutions are given. The integral of "living forces" in plane symmetry is found. It allows to validate the field confinement of matter by a self-consistent field. A pair of forces of field origin, holding the layer in a static equilibrium state, is found - the compression force and the expansion force. The distribution of physical parameters in a flat layer is investigated. The thickness of layer is determined. It coincides with doubled spatial scale.

An approximate solution to the problem of matter distribution in a hollow cold cluster with uniform temperature is found in spherical field traps of the first kind. The approximate solution is verified by numerical simulation. An exact solution is found for potential distribution in a field trap of the second kind. Estimates show that mass spectra of hollow neutron clusters with temperatures from 1011 to 1012 K can be identified with masses of objects observed in centers of galaxies.

A hypothesis has been put forward about the existence of invisible gas bubbles of small radii and large masses with low temperatures. Flying out from dark plasma of the Sun, filled balls, due to expansion and cooling activity of gas, turn into thin-walled bubbles with liquid wall. The expansion process transfers them to the class of dark matter. Collisions with invisible bubbles can be responsible for depressurization of spacecraft, for inelastic impacts on station windows, and even for unsuccessful landings of space modules on the Moon. Processing the trajectory measurements of lunar modules’ unsuccessful landing will confirm or refute the hypothesis of their collisions with invisible bubbles.

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