What Prevents Resolving the Hubble Tension through Late-Time Expansion Modifications?

Abstract

We demonstrate that Type Ia supernovae (SNe Ia) observations impose the critical constraint for resolving the Hubble tension through late-time expansion modifications. Applying the Fisher-bias optimization framework to cosmic chronometers (CC), baryon acoustic oscillations (BAO) from DESI DR2, Planck CMB, and Pantheon+ data, we find that: (i) deformations in H(z 3) (via w(z) reconstruction) can reconcile tensions between CC, Planck, DESI BAO, and SH0ES measurements while maintaining or improving fit quality (2 < 0 relative to ); (ii) In the neighborhood of Planck best-fit model, no cosmologically viable solutions targeting H0 69 satisfy SNe Ia constraints. MCMC validation confirms the maximum achievable H0 = 69.090.30 (2 BF ≈ 2 CDM) across all data combinations, indicating that the conflict between late-time w(z) modifications and SNe Ia observations prevents complete resolution of the Hubble tension.