Giovanna D'Alonzo
In the vacuum, some solids could be used as gas filters not only through the empty spaces of the crystal lattice but also through the electronic clouds of the atoms that make up the solid. With the use of particular equipment in the vacuum we could obtain a new energy, look for the energy sufficient for the adaptability of the electronic cloud and obtain a suitable temperature for the adaptability of the electronic cloud. In the case suppose that the electronic clouds of the atoms constituting the solid are valued by the ions, this energy is subtracted from ion ionization energy in the total energy of the molecules distribution and, through some mathematical passages, we deduce a temperature sufficient for the passageway of the electronic cloud suitable for some solids. An ion and/or an atom to be filtered should have a smaller diameter than the atomic radius of the atom that constitutes the filter, for the transition through the electronic clouds. The gases could cross the solid or in the empty spaces of the crystal lattice or in the electronic clouds of the atoms that make up the solid due to the difference between the force fields. In this way, during the passage the atoms and/or the ions composing the gas do not incorporate the nuclei of the atoms constituting the solid and avoid potential highs including the Yukawa potential. Possible future applications could improve the quality of life, in particular it would be possible to reduce atmospheric pollution by making molecular hydrogen.
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