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Michael, M. (2025) Anthony; Consequences of Invariant Functions for the Riemann Hypothesis. Advances in Pure Mathematics, 15, 1-35.
https://www.scirp.org/journal/apm

has been cited by the following article:

• TITLE: The Super Force —A Unified Model of Fundamental Forces from Inter-Sheet Temporal Tension in the Causal Conspiracy Framework

  AUTHORS: Michael M. Anthony

  KEYWORDS: Causal Conspiracy, Casimir, Cosmology, Space, Time, Causality, Symmetry, Yakuwa, Eccentricity, Fundamental Forces, Gravity, Weak Force, Strong Force

  JOURNAL NAME: Journal of Quantum Information Science, Vol.15 No.4, December 19, 2025

  ABSTRACT: This paper derives a unified model for the fundamental forces based on the SuperForce, a temporal tension arising from quantum waves bouncing between dual temporal sheets (past and future symmetry) separated by a time gap t gap , as described by the Principles of Causal Conspiracy (book published by Scientific Research Publishing (SCIRP.org). The paper presents a comprehensive derivation of the Yukawa potential (strong force), gravitational potential, weak force, and cosmic expansion from first principles within the Principles of Causal Conspiracy. The framework models information as logical charges with net zero symmetry across dual temporal sheets (past and future) separated by a time gap. Each moment is a time gap that has conjugate possibilities on two sheets representing the states of the past and the future. The existence of massive states of opposite symmetry between the sheets results in temporal forces as tensions across this gap that are projected as residuals into space, thus unifying the forces: Yukawa as short-range minimization, weak as asymmetric resolution, gravity as long-range attraction, and expansion as large-scale repulsion. Electric charge emerges from mismatched wave function interference in particles with masses unequal to the neutron, influenced by observer participation. The model accounts for neutrinos associated with leptons as conjugate wave residues and predicts the relativistic eccentricity of Mercury’s orbit (via temporal resonance). The wave pressure, acting as a Casimir-like attractive pull proportional to mass squared, reduces t gap for massive objects, enhancing tension. The model offers testable predictions for particle physics and cosmology.