@article{Bagdoo_2022, title={On Maxwell’s Reversed Laws as Root of Magnetic Monopoles in Dark Matter: Dark Matter}, volume={12}, url={https://www.fundamentaljournals.org/index.php/ijfps/article/view/164}, DOI={10.14331/ijfps.2022.330154}, abstractNote={<p>We propose the magnetic sterile neutrino as a possible candidate for dark matter. We bring the idea that dark matter would be made up of substances originating from black holes, in particular sterile neutrinos associated with a magnetic charge. These would not be sensitive only to the gravitational force. First, we conjectured that when baryonic matter crosses the black holes event horizon, Maxwell’s laws are reversed, the electric charge turns into a magnetic charge<span style="text-decoration: line-through;">.</span> Sterile magnetic neutrinos and antineutrinos would be created and emitted, true magnetic monopoles. Second, we discuss dark matter consisting of sterile magnetic neutrinos, the cosmic microwave background, mini primordial black holes, and the formation of intermediate mass black holes linked to the formation of galaxies. Third, we review different mechanisms of how sterile magnetic neutrino could have escaped from the black hole. Fourth, we investigate the possibility that ordinary neutrinos could be produced by the weak interaction if sterile magnetic dark matter neutrinos interact with active ordinary matter neutrinos. Fifth, after examining equations of possible production of gamma rays from the annihilation of neutrinos-antineutrinos, we propose the “anapole”, which would be weakly sensitive to electromagnetic forces. Before concluding, we underline the relation between the distribution of the magnetic fields coming from baryonic matter and that from dark matter, and we highlight the gamma ray glows in the dark that can be attributed to the annihilation of dark matter with itself.</p>}, number={3}, journal={International Journal of Fundamental Physical Sciences}, author={Bagdoo, Russell}, year={2022}, month={Sep.}, pages={35-61} }