Summary of the Proposed Framework This work presents a unified geometric framework for quantum reality and gravity through five interconnected papers. This work proposes a geometric framework for understanding quantum physics and gravity based on the following ideas: 1. A fundamental, unobservable Energy Space is proposed as the deeper foundation of physical reality. The mathematical structure of Hilbert space may apply within this Energy Space. 2. Spacetime emerges from Energy Space and acts as a passive geometric medium with dynamic capabilities that enable the existence, motion, interaction, and transformation of quantum objects. 3. Every quantum object is regarded as a particular encoded dynamic geometric pattern of spacetime possessing intrinsic geometric symmetry. 4. Each quantum object carries a complete encoded description of all its possible physical properties, including mass, energy, spin, charge, momentum, wavelength, phase, and frequency. These properties become physically actualized according to the interaction, medium, and surrounding conditions. 5. During an effective interaction or emission into vacuum, Energy Space delivers the encoded property values required for that event. Different interactions may actualize different subsets of the encoded information. 6. Within this framework, the relation E = hf is interpreted as an encoding relation rather than a statement that physical energy is always actualized. 7. Changes in spacetime geometry modify the geometry of quantum objects and thereby change the manifested values of their physical properties. 8. Registration of quantum information in Energy Space ensures that, among all possible branches of a quantum object, only one actualization event occurs during decoherence. 9. The electromagnetic, strong, and weak interactions are interpreted as direct interactions between the dynamic geometries of quantum objects. The field of a quantum object is interpreted as its spatially extended dynamic geometric structure. 10. A decoherence event is proposed to occur only when one of the oscillatory extrema within the internal oscillation structure of a quantum wave packet couples effectively with another physical system. 11. Fermion masses and instability hierarchies are proposed to follow an underlying phenomenological geometric scaling relation associated with the fine-structure constant. 12. This framework proposes two fundamental kinds of physical interactions: 1. Direct interactions: interactions occurring directly between quantum-object geometries (such as the electromagnetic, strong, and weak interactions). 2. Indirect interactions: interactions between physical objects mediated through spacetime geometry (gravitational interaction). 13. Gravitational Interaction is proposed to arise through indirect interaction mediated by spacetime geometry. Its observed relative weakness is interpreted as a consequence of this fundamentally different geometric origin. 14. The characteristic oscillatory frequency of a quantum object is proposed to create gravity, although negligibly, even when the associated mass and energy are not actualized. These ideas are developed across four papers: Paper 1: Energy Space and Geometric Nature of Quantum Objects and SpacetimePaper 2: Quantum GeometryPaper 3: Lepton and Quark Generational Phenomenological Patterns; and Paper 4: Peak-Coupling Theory of Quantum Interaction
SK Gupta (Sun,) studied this question.