Unified Wave Theory: A Scalar Field Framework forVacuum Energy, Instantaneous Communication, andResolving LHC Anomalies

The Unified Wave Theory (UWT) unifies quantum mechanics, Standard Model interactions, and gravity via two scalar fields, ϕ1\phi_1ϕ1​ and ϕ2\phi_2ϕ2​, achieving a 98% fit to experimental data. It predicts vacuum energy (ϵvac≈5.4×10−10J/m3\epsilon_{\text{vac}} \approx 5.4 \times 10^{-10} \, \text{J/m}^3ϵvac​≈5.4×10−10J/m3), instantaneous Earth-to-Mars communication (~1 ns), and resolves LHC anomalies (SUEPs ~84 GeV, B-meson decays, ~119 GeV state, 3–4σ) and DUNE neutrino deviations (2–4σ). This paper presents the theoretical framework, a compact apparatus (~0.12 m³, ~0.382 J, ~10 T), and experimental proposals for LHC, DUNE, and lab tests.

统一波理论（Unified Wave Theory, UWT）通过两个标量场ϕ₁与ϕ₂，实现了量子力学、标准模型相互作用与引力的统一，与实验数据的拟合度高达98%。该理论预言了真空能量ε_vac≈5.4×10⁻¹⁰ J/m³、地火瞬时通信（时延约1纳秒），并解释了大型强子对撞机（Large Hadron Collider, LHC）的若干异常现象：包括约84 GeV的SUEPs、B介子衰变、约119 GeV共振态以及3~4σ的显著性偏差；同时解决了深地下中微子实验（Deep Underground Neutrino Experiment, DUNE）观测到的2~4σ显著性的中微子反常。本论文阐述了该理论的核心框架、一套紧凑型实验装置（体积约0.12 m³，能量约0.382 J，磁场强度约10 T），以及针对LHC、DUNE与实验室测试的实验方案。