TITLE:
Could Tachyonic Magnetic Monopole Neutrinos Be the Fundamental Cause of Gravitational Phenomena in the Universe
AUTHORS:
Eue-Jin Jeong
KEYWORDS:
Gravity, Neutrinos, Tachyons, Magnetic Monopole, General Relativity, QCD, Quantum Field Theory
JOURNAL NAME:
Journal of High Energy Physics, Gravitation and Cosmology,
Vol.12 No.1,
January
7,
2026
ABSTRACT: Moving electrically charged particles create a spiraling magnetic field around them according to Maxwell’s equation, and each hadron containing fractionally charged quarks will be filled with randomly fluctuating magnetic fields, which are known as quark gluon plasma that binds each hadron as a single particle. If we consider that neutrinos are magnetic monopole particles traveling at extremely high speeds, the chance of magnetic monopole neutrinos passing through the core of hadrons without interference will be extremely small. We theorize that inertia and gravity are caused by the impediment of the passage of the background magnetic monopole neutrinos by the hadronic matter particles, which causes local spatial density modification of the surrounding background neutrinos. Weak interactions manifest in the decay of a neutron into a proton and an electron, where the neutrino is emitted during the decay process to conserve energy and momentum. Therefore, in theory, there should be as many electron neutrinos as protons or electrons in the universe. The compelling question for physicists is where all those neutrinos are and what they contribute to the workings of the universe. Are they sitting idly doing nothing or actively participating in the universe’s work? When it was generally concluded that neutrinos do not have either electric or magnetic charges, there are no neutrinos that can contribute to the workings of the universe within the known framework of particle interactions. In the hypothesis of tachyonic magnetic monopole background neutrinos, the mass of a particle is defined by how much resistance the particle experiences owing to the presence of fast-traveling tachyonic magnetic monopoles. Naturally, the heaviest matter causes the greatest obstruction to the passage of these neutrinos. Blackholes are gigantic quark gluon plasmas that obstruct the passage of background neutrinos in space, forming an impenetrable vacuum for these neutrinos. In effect, we can conceptually relate the effect of gravity to the magnetic monopole property of the neutrinos interacting with the magnetic field of the gluons created by the fast-moving quarks inside the hadrons. The fundamental cause of gravity toward the center of mass of a massive gravitating object can be viewed as a result of the absence of background neutrinos coming from the direction of the gravitating object owing to the blockage of the neutrino particles. There is insufficient flux of neutrinos coming from the direction of the massive gravitating object to stop the pushing effect from the opposite side of the object. In an empty space, an isolated macroscopic object remains in the same position according to the principle of Newtonian mechanics, because the force produced by the impinging neutrino flux toward the object is homogenous and isotropic in all directions, and it does not cause the object to move toward any particular direction, which is essentially the manifestation of Newton’s first law of motion.