本文尝试将偏元数学系列基础论文 (0-∞. 0) 中引入的纯数学常数ε锚定到一个经验物理可观测值上: 宇宙微波背景 (CMB) 温度Tcmb ≈ 2. 72548 K。我们提出, 残余ε不仅仅是一个形式符号, 它对应于嵌入宇宙初始条件中的真实物理偏好。通过分析早期宇宙中的对称性破缺结构, 我们推导出ε与CMB单极温度之间的映射关系。该推导从阴阳二相振荡子模型出发, 在该模型中, 每一次宇宙呼吸周期都会引入一个不可约的方向偏好δ₀ ≈ 10⁻⁶⁰。我们证明, ε正是这个物理挣脱偏角在数学上的投影。当ε→0时, 该模型退化为具有完美各向同性的经典CMB宇宙学。我们提供了一个初步的可证伪条件: 如果未来的CMB观测证明单极温度是完全各向同性的, 且残余方向偏好精确为零 (在10⁻⁶⁰量级以下), 则ε物理锚定的这一框架被证伪。 This paper attempts to anchor the purely mathematical Partial-Deviation constant ε, introduced in the foundational paper 0-∞. 0, to an empirical physical observable: the Cosmic Microwave Background (CMB) temperature Tcmb ≈ 2. 72548 K. We propose that the residual ε is not merely a formal symbol but corresponds to a real physical bias embedded in the universe's initial condition. By examining the structure of symmetry breaking in the early universe, we derive a mapping between ε and the CMB monopole temperature. The derivation proceeds from the Yin-Yang Two-Phase Oscillator model, in which each universal breath cycle introduces an irreducible directional preference δ₀ ≈ 10⁻⁶⁰. We show that ε is the mathematical projection of this physical escape bias. When ε → 0, the model degenerates to classical CMB cosmology with perfect isotropy. We provide a tentative falsification condition: if future CMB observations demonstrate that the temperature monopole is exactly isotropic with zero residual directional preference at the 10⁻⁶⁰ level, then the physically anchored Partial-Deviation framework is falsified.
Song Chen (Tue,) studied this question.