Induction of Phononic Activity (Heat Generation) Through Phononic Tunneling Effect in Matter Pursuant to Electron Volley through a Superconductor (EVS) Whilst Preserving Entirety of Electrical Energy Invested
On April 22, 2021, an experiment was suggested that had as an objective achieving an as-yet-undiscovered cooling effect. The purpose of this publication is to retract that thesis and replace it with a new, improved thesis. A fundamentally flawed assumption was made, at the fault of the author, in order to realize a long-sought dream of bringing clean drinking water to the world. While this is still a laudable goal worth pursuing, the implications of today’s hypothesis may prove even more consequential than a new method of refrigeration.
The faulty assumption was that the electrons within our nanotubes would have the effect of repelling protons within the nuclei of atoms in the polymer sheathing and it furthermore assumed the absolute rigidity of the atoms of the polymer. Obviously, neither is the case. Electrons and protons should attract each other while electrons should repel other electrons, it should go without saying.
Another assumption, one which we will continue to rely upon for our theory to be vindicated, is that a force can be exerted by electrons through a perfect insulator such as any hexagonally-structured compound likely to be used in future room temperature superconductors once they are established as fait accompli. The question is, whether a perfect insulator, while prohibiting the escape of electrons, permit those electrons to exert force across the boundary of the insulator through the already-acknowledged phenomenon of phononic tunneling. This author believes it is possible.
On April 22, 2021, an experiment was suggested that had as an objective achieving an as-yet-undiscovered cooling effect. The purpose of this publication is to retract that thesis and replace it with a new, improved thesis. A fundamentally flawed assumption was made, at the fault of the author, in order to realize a long-sought dream of bringing clean drinking water to the world. While this is still a laudable goal worth pursuing, the implications of today’s hypothesis may prove even more consequential than a new method of refrigeration.
The faulty assumption was that the electrons within our nanotubes would have the effect of repelling protons within the nuclei of atoms in the polymer sheathing and it furthermore assumed the absolute rigidity of the atoms of the polymer. Obviously, neither is the case. Electrons and protons should attract each other while electrons should repel other electrons, it should go without saying.
Another assumption, one which we will continue to rely upon for our theory to be vindicated, is that a force can be exerted by electrons through a perfect insulator such as any hexagonally-structured compound likely to be used in future room temperature superconductors once they are established as fait accompli. The question is, whether a perfect insulator, while prohibiting the escape of electrons, permit those electrons to exert force across the boundary of the insulator through the already-acknowledged phenomenon of phononic tunneling. This author believes it is possible.
