Archives of Interdisciplinary Education
Information and Geometric Interpretation of Radioactive Decay
Abstract
Vladimir Nesterenko
This paper proposes a philosophical and conceptual interpretation of radioactive decay based on informational geometry and quantum spatial structures. Inspired by the ideas of loop quantum gravity, the hypothesis suggests that particles do not simply escape atomic nuclei through probabilistic quantum tunneling, but instead follow geodesic paths shaped by localized geometric deformations in the spin network of space-time.
The decay process is treated as an informational transaction: a temporary geometric distortion triggered by a local imbalance (of mass, energy, or symmetry), followed by a restoration of balance through a response from dark energy, guided by quantum informational input. Alpha, beta, and gamma decays are reinterpreted as geometrically organized transformations, each restoring equilibrium through the regulated curvature of space.
This perspective shifts the paradigm: rather than describing decay in terms of forces and energy transfer between particles, it is viewed as a geometric mechanism of self-regulation by space-time itself, reacting to informational tension. In this framework, energy does not propagate as a transferable substance, but emerges as a manifestation of localized geometric evolution. The model invites a reconsideration of dark energy, neutrinos, and photons as agents of informational reconfiguration within quantum geometry.