Ahmed Ali
Volume 1, Issue 1
Published: 24 December, 2025
This comprehensive paper presents the complete mathematical formulation of the Expanded Quantum String Theory with Gluonic Plasma (EQST-GP) model, resolving all previously identified theoretical challenges. We provide rigorous derivations starting from the fundamental action of M-theory, through compactification on S¹ × CY₃, to precise cosmological predictions. Key achievements include: (1) Resolution of the Calabi-Yau scale problem through exact dimensional analysis, (2) Natural derivation of superheavy Majorana gluon dark matter mass m_DM ∼ 10¹⁶ GeV without fine-tuning, (3) Topological protection mechanism yielding correct coupling g_eff ∼ 10⁻¹⁰, (4) Dynamic cosmological constant resolving the Hubble tension, and (5) Testable predictions for primordial gravitational waves detectable by LISA. The model represents a fully consistent framework unifying quantum gravity, particle physics, and cosmology.
M-Theory, Quantum String Theory, Gluonic Plasma, Dark Matter, Cosmological Constant, Hubble Tension, Primordial Gravitational Waves, Calabi-Yau Compactification
Ahmed Ali, Researcher in Theoretical Physics, Quantum Gravity, and General Artificial Intelligence Max Planck Institute for Physics, Munich, Germany.
Ahmed, A. (2025). Drft III for (EQST-GP) Model: From M-Theory Foundations to Cosmological Predictions and Mathematical Formulation Map. Int J Phys Sci Res. 1(1), 01-10.