The Unary Field Theory: t Flow, Locked Kinetic Mass, and the Origin of Spacetime Dynamics About the Paper This is the first part (P1) of the Unary Field Theory (UFT) research series. This paper introduces the Unary Field Theory, a unified framework built on three fundamental parameters. It successfully unifies inflation, dark matter, dark energy, and gravity as a phenomenon emerging from the kt flow substrate. This specific document focuses on the observational predictions of the theory, specifically the "two-year delay" phenomenon in LISA scalar gravitational waves. We present the exact calculations for the time delay between scalar and tensor gravitational wave modes, demonstrating the robust 1/f² spectral scaling law. The document also outlines the observational strategy for LISA SMBH mergers and the discriminatory power of this prediction against standard astrophysics and ΛCDM. Key Highlights Unified Framework: Successfully unifies inflation, dark matter, dark energy, and gravity based on the unary field Ψ. Core Prediction: Predicts a robust "two-year delay" phenomenon in LISA scalar gravitational waves. Exact Calculations: Demonstrates the strict Δt ∝ 1/f² scaling law for the time delay between scalar and tensor modes. Observational Strategy: Outlines a clear strategy for detecting supermassive black hole (SMBH) mergers with LISA.
zhiqiang zou (Sat,) studied this question.