Dimensional Asymmetries in Subatomic Lattices and Vacuum Interfaces: A Boundary-Bulk Framework for Mass Generation and Geometric Unification

Thomas Christian Weissflog

Dimensional Asymmetries in Subatomic Lattices and Vacuum Interfaces: A Boundary-Bulk Framework for Mass Generation and Geometric Unification

Author(s)	Mr. Thomas Christian Weissflog
Country	Canada
Abstract	Conversation with Gemini Can you retype the title and abstract of this paper so I can copy and paste Here are the requested title and abstract from the paper: Dimensional Asymmetries in Subatomic Lattices and Vacuum Interfaces: A Boundary-Bulk Framework for Mass Generation and Geometric Unification Abstract We present a novel mathematical and conceptual framework that models the vacuum state as a localized two-dimensional metric boundary (M 2 ) intersecting a higher-dimensional four-dimensional spatial bulk (M 4 ×R t ), establishing a total five-dimensional spacetime description. Within this framework, we demonstrate that the fundamental physical properties of the vacuum interface can be exhaustively derived via localized area equations, which dictate zero-point energy density, topological Casimir constraints, and entropic boundaries. Concurrently, the discrete properties of the subatomic particle spectrum—specifically mass eigenvalues, coupling constants, and gauge behaviors—are shown to emerge dynamically from proper time and invariant spacetime interval equations within the higher-dimensional bulk. By mapping the boundary geometry to the bulk trajectories via a non-trivial dilaton coupling matrix, we establish a precise model for boundary-bulk dimensional cross-talk. This framework provides an alternative geometric mechanism for mass generation without relying exclusively on scalar fields, offering a fresh trajectory toward the grand unification of gravitational and subatomic forces.
Keywords	Vacuums, Gravity, 2nd Dimension, Time
Field	Physics
Published In	Volume 17, Issue 2, April-June 2026
Published On	2026-06-06

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Dimensional Asymmetries in Subatomic Lattices and Vacuum Interfaces: A Boundary-Bulk Framework for Mass Generation and Geometric Unification

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