The Unified Informational Field Theory: Emergence of Spacetime, Gauge Symmetries, and Fundamental Forces from Projected Twistorial Geometry

We introduce the Unified Informational Field Theory (UIFT), a fully geometric and informationally grounded framework in which all known interactions—including gravity, electromagnetism, the weak, and the strong nuclear forces—emerge from a single scalar field \( i_Q(x) \). This field is defined as the real projection of a holomorphic function over complex projective twistor space \( \mathbb{PT} \), extending the original program of Sir Roger Penrose.

From a unified action, we derive the coupling of \( i_Q(x) \) to spacetime curvature, matter fields, and gauge structures. Gravitational dynamics emerge via a functional backreaction \( g_{\mu\nu}[i_Q] \), while local gauge symmetries arise from invariances of the informational phase. We show that confinement and mass generation result from curvature-induced decoherence and topological recursion. Propagators, interaction vertices, and coupling hierarchies are obtained from the quantized field theory, with all coupling constants reducible to integrals over twistor space.

This work offers a unified derivation of spacetime, quantum fields, and fundamental forces from a single informational principle, providing a testable and geometrically complete framework that bridges twistor theory, quantum gravity, and the Standard Model.

(Related Works)

This work supersedes and significantly extends the theoretical framework introduced in our previous publication:

  - Unified Theory of Gravitational Quantum Dynamics: Emergence as Opposed to Collapse, DOI:https://doi.org/10.5281/zenodo.15794583. This earlier formulation introduced the notion of curvature-induced quantum collapse via an informational field, but did not yet incorporate gauge symmetries or a twistor-based structure.

  - Additionally, the current model builds upon and generalizes the geometric mechanisms presented in: A Scale-Dependent Geometric Coupling as a Unified Solution to Astrophysical and Cosmological Anomalies, DOI: https://doi.org/10.5281/zenodo.15995492 . This related work focuses on cosmological-scale deviations, here incorporated as large-scale manifestations of the same informational field dynamics.