Threshold Emergence of Physical Laws: A Scale-Relative, Field-Dependent, Infinitely-Layered Quantization Framework

Modern physics has long treated the tension between continuity and discreteness as a fundamental duality: wavefunctions and fields appear continuous, while measurement outcomes remain sharply quantized. Yet, as the article emphasizes, this duality is not intrinsic to nature but a consequence of observational scale and field dominance. Drawing directly from the text — “both continuity and discreteness are relative to the energy scale of observation and to the dominant field at that scale” — the framework proposes that no continuous layer is truly fundamental. Instead, every continuous regime is the coarse-grained limit of a deeper discrete structure governed by fields not yet discovered. The paper introduces an…