摘要 (Abstract) 本文提出一個基於幾何對稱性的初步框架——月林常數體系(Yue-Lin Constant System),旨在探究當代巡天觀測中早期成熟星系分佈異常(JWST Tension)與哈伯張力等現象的幾何成因。透過觀察莫比烏斯拓撲(Möbius Topology)在時空演化中的潛在應用,本文分析了宇宙可能具備的雙重半徑結構,並嘗試為從微觀夸克尺度到宏觀宇宙總質量的物理聯繫提供另一種理解路徑。 This paper proposes a preliminary framework based on geometric symmetry—the Yue-Lin Constant System—aiming to explore the geometric causes of phenomena such as early mature galaxy distribution anomalies (JWST Tension) and Hubble Tension in contemporary sky surveys. By observing the potential application of Möbius Topology in spacetime evolution, this paper analyzes the potential dual-radius structure of the universe and attempts to provide an alternative understanding of the physical connections from the microscopic quark scale to the macroscopic total mass of the universe. 觀測顯示,宇宙運作可能受控於兩組具備幾何意義的曲率常數:由月林常數 A (5.1 x 10⁻⁵³ m⁻²) 所對應的 296 億光年實際物理半徑,以及由月林常數 I ( 5.1 x 10⁻⁵⁴ m⁻²) 形成的 465 億光年全息投影半徑。研究發現,在 232.5 億光年處可能存在正交角效應,導致 232.5 至 296 億光年區間展現出實體與全息虛影同存的觀測特徵。本文提出的模型試圖解釋該區域物理規律的複雜性,並探討黑洞與白洞在莫比烏斯結構下生生不息、周而復始的循環機制。 Observations suggest that the universe's operation may be controlled by two sets of geometrically significant curvature constants: the Actual Physical Radius of 29.6 billion light-years corresponding to Yue-Lin Constant A (5.1 x 10⁻⁵³ m⁻²), and the Holographic Projection Radius of 46.5 billion light-years formed by Yue-Lin Constant I (5.1 x 10⁻⁵⁴ m⁻²). Research indicates that an Orthogonal Angle Effect may exist at 23.25 billion light-years, causing the interval between 23.25 and 29.6 billion light-years to exhibit observational characteristics where reality and holographic shadows coexist. The model proposed in this paper attempts to explain the complexity of physical laws in this region and explores the cyclical mechanism of black holes and white holes under the Möbius structure, which is endless and repeats in cycles.