Matthew C Allaby
I am an independent researcher from Canada developing Integrated Spiral Topological String Theory (ISTST), a unification framework built around spiral compactification, torsion-monodromy locking, and geometric constraint as foundational organizing principles in physics.
My work investigates whether the persistent failure of unification in modern theory reflects not only technical difficulty, but a missing geometric mechanism.
Within this program, I work on compactification, gauge structure, renormalization, emergent spacetime, locality, and the formulation of explicit experimental and observational tests capable of determining whether the core mechanism is physically real.
I am particularly interested in how a deeper geometric structure may organize apparently separate domains of physics into a coherent whole.
I also extend this research into consciousness, persistence, and ultimate reality through structural, topological, and constraint-based analysis spanning fundamental physics, philosophy of mind, and comparative religious thought. Across all of this work, the central aim is the same: to identify whether a deeper geometric principle can account for coherence, continuity, and structure across scales that are usually treated in isolation.
My research is public, interdisciplinary, and oriented toward long-range foundational questions, with an emphasis on rigor, testability, and the search for physically meaningful unification.
Address: Edmonton, AB.
My work investigates whether the persistent failure of unification in modern theory reflects not only technical difficulty, but a missing geometric mechanism.
Within this program, I work on compactification, gauge structure, renormalization, emergent spacetime, locality, and the formulation of explicit experimental and observational tests capable of determining whether the core mechanism is physically real.
I am particularly interested in how a deeper geometric structure may organize apparently separate domains of physics into a coherent whole.
I also extend this research into consciousness, persistence, and ultimate reality through structural, topological, and constraint-based analysis spanning fundamental physics, philosophy of mind, and comparative religious thought. Across all of this work, the central aim is the same: to identify whether a deeper geometric principle can account for coherence, continuity, and structure across scales that are usually treated in isolation.
My research is public, interdisciplinary, and oriented toward long-range foundational questions, with an emphasis on rigor, testability, and the search for physically meaningful unification.
Address: Edmonton, AB.
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Papers by Matthew C Allaby
in graphene based quantum Hall systems. Using a controlled dimensional reduction of the ISTST
framework, we show that spiral compactification with torsion monodromy locking introduces a
discrete geometric correction to topological quantization conditions. This correction modifies quan-
tum Hall plateau structure while preserving topological protection. We derive explicit quantitative
predictions for plateau shifts and degeneracy splittings in graphene and moir´e graphene systems,
and confront these predictions with existing experimental data. Clear falsifiability conditions are
identified, enabling direct experimental tests of the framework.