What question did this study set out to answer?

To develop a substrate-first model that reinterprets photonic behavior as coherence propagation within a quantized substrate.

February 5, 2026Open Access

MID/QC Applied Substrate Series 7 - Light as Coherence Propagation: A Substrate First Model of Photonic Behavior

Key Points

To develop a substrate-first model that reinterprets photonic behavior as coherence propagation within a quantized substrate.
Developed a theoretical framework for substrate-first photonics
Described coherence-level dynamics influencing light behavior
Analyzed traditional photonics phenomena such as reflection and refraction
Unified explanation for reflection, refraction, and emission based on coherence dynamics
Demonstrated that light behavior emerges from substrate interactions rather than wave-particle theory
Provided insights into the potential of coherence-native optical materials

Abstract

Conventional photonics models light as particle‑wave dual behavior propagating through space. In the MID/QC framework, light is reinterpreted as coherence propagation within the quantized substrate, not as an independent entity. This paper develops the substrate‑first model in which photonic behavior emerges from tension‑guided coherence channels, substrate alignment, and gradient‑driven propagation. The result is a unified architecture explaining reflection, refraction, interference, absorption, and emission as coherence‑level substrate dynamics rather than wave‑particle interactions. This work anchors the photonic branch of the Applied Substrate Series and provides the conceptual foundation for coherence‑native optical materials and routing.

MID/QC Applied Substrate Series 7 - Light as Coherence Propagation: A Substrate First Model of Photonic Behavior

Key Points

Abstract

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