PFUSRC-010-A: Systematic 12/11 Shift -- A Reanalysis of the B Meson Lifetime Ratio

The Standard Model (SM) of particle physics predicts the B^{+} to B^{0} meson lifetime ratio to be close to 1 (1.00–1.05), determined only by lepton mass differences and phase space effects. However, the 2026 PDG average released by HFLAV is 1.0832\pm0.0034, significantly deviating from 1.00.

This paper shows that this measured value 1.0832 is remarkably close to the PFUSRC intrinsic convergence constant 12 / 11=1.090909... , with a deviation of 0.0077 at the 2.26σ level. Meanwhile, the \Lambda_{b}/B^{0} lifetime ratio 0.970\pm0.006 also exhibits a trend toward 11/12=0.9167.

This paper proposes that these “anomalous” lifetime ratios are projections of a systematic 12/11 shift in microscopic processes. This shift does not originate from conventional medium damping or random errors, but rather from the linear stretching effect of large-scale cosmic expansion on the microscopic topological skeleton. Without introducing any additional free parameters, this mechanism consistently unifies microscopic lifetime ratios with macroscopic cosmic evolution.