A Minimal Response-Theory Model for Controlled Informational Reconfiguration This work introduces a minimal quantitative response-theory framework designed to connect ZIP cosmology with experimental measurement. Rather than assuming a microscopic model of the informational structure of spacetime, the approach focuses on the measurable response of physical systems to structured, coherent external perturbations. Any ZIP-related deviation is modeled as an effective response kernel that vanishes under symmetric or incoherent perturbations and may become non-zero only in the presence of controlled spatial or temporal asymmetry. The framework introduces a single fitable sensitivity parameter, enabling experimental data to establish upper bounds or identify statistically significant deviations from standard physical predictions. The model preserves conservation laws, avoids speculative energy extraction, and provides a disciplined quantitative pathway for testing informational-ontology-based hypotheses within contemporary experimental physics.
Jakub Slahounek (Wed,) studied this question.