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A Coherent and Unified Single Particle Description of the Integer and Fractional Quantum Hall Effects

Published 30 Sep 2021 in physics.gen-ph | (2110.00343v1)

Abstract: There are compelling reasons to seek a new coherent description of the Quantum Hall Effects (QHE). The theories of the Integer' (IQHE) and theFractional' (FQHE) quantum Hall effects are very different at present, despite their remarkable phenomenological similarity. The fractional effect invokes multi-particle dynamics and collective phenomena in the presence of a dominant Coulomb interaction, in a complex hierarchical scheme, whereas the integer effect is a simpler single-particle scenario. The experimental situation, in contrast, shows that both the effects appear seamlessly, intermingling, as either the magnetic field or the carrier density is varied. I prove that a crucial physics input that is missing in the current theories is the relativistic gravity of the matter-energy in the Universe. The dynamically induced relativistic gravitational potential play a startling role to modify the quantum degeneracy, by coupling to the mass of electrons. The key point is that the quantum degeneracy of Landau levels is modified by the relativistic cosmic gravitomagnetic field, thereby making the degeneracy dependent on the number density of the electrons. I successfully derive the main characteristics and the full sequence of both IQHE and FHQE in a seamless unified single-particle scenario, without any quasiparticles, particle-flux composites, or extraneous postulates. Apart from correctly reproducing all the observed filling factors of the QHE for the $\nu\geq1/3$, this new unified theory has the natural explanation for the absence of the QHE at even fractions for $\nu<1$. Further, there is a consistent description of the edge state charge transport and thermal transport, in the FQHE states. The gravitational paradigm shows clearly the physical reason for the phenomenological success of the effective theories with the quasiparticles.

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