Parametrizing Correlation Timing in Quantum Entanglement: A Lorentz-Structured Ansatz in Terms of Concurrence

Quantum entanglement is commonly assumed to exhibit no measurable correlation delay, independent of entanglement strength. This paper asks whether that limit maybe a special case rather than a universal property, and proposes a quantitative formulation for how correlation timing may depend on the degree of entanglement. The formulation parametrizes correlation timing as a function of Concurrence, satisfying three explicit requirements: zero delay at C = 1, classical light-travel time at C = 0, and continuous monotonic interpolation without new physical scales. Among the functions satisfying those requirements, the Euclidean member n = 2 is singled out as the unique Euclidean consequence of the geometric…