Modern physics has revealed that the vacuum is not empty space but a physical systempossessing measurable properties. Quantum fluctuations, field condensates, and fundamentalconstants demonstrate that the vacuum plays an active role in the structure of physical reality.At the same time, observations show that space is present on every known scale of nature, fromthe largest cosmic structures to the interior of atoms and nucleons.This paper explores the question of why the vacuum possesses the specific properties observedin nature. Rather than treating physical constants as arbitrary parameters, the present workexamines the possibility that they reflect an underlying organizational structure of the vacuumitself. Within this perspective, the vacuum is viewed as the most fundamental observable layerof reality, while stability, confinement, matter formation, and physical complexity emerge asconsequences of its intrinsic properties.The paper is exploratory in nature and does not propose modifications to established quantumfield theory or cosmology. Instead, it investigates whether the concepts of vacuum structure,information, energy, and physical organization can be connected within a common conceptualframework that may provide insight into the origin of physical reality.The present work should be viewed as an exploratory conceptual framework that seeks toconnect vacuum structure, stability formation, and physical organization within a unified inter-pretative perspective
André J.H. Kamminga (Sat,) studied this question.
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