Dictionary revision for mapping boundary data to bound states

The correspondence between gravitational observables derived from scattering processes and adiabatic invariants in bound orbits, within the framework of the Post-Minkowskian (PM) expansion, has garnered significant attention in the study of bound orbital systems. However, the existing dictionary for this correspondence produces complex-valued quantities of bound orbits that contravene physical principles in 4PM calculations, thus revealing deficiencies in the dictionary. Our research identifies a critical issue: the Fourier transform of the scattering amplitude incorporates a factor of $(p_\infty^2)^{-n/2}$ in 4PM order. This factor introduces singularities at $p_\infty^2 = 0$, thereby rendering the original dictionary become ineffective, as it assumes the possibility of connecting both scattering states and bound states at the singular point. We propose a rigorous modification by employing Hawking's method for black hole radiation, specifically analytical continuing $p_\infty^2 \rightarrow p_\infty^2 e^{-i \pi}$. We also evaluate the new dictionary by comparing the binding energy calculated using effective one-body (EOB) theory with numerical relativity (NR) simulations data from the SXS collaboration. Our findings indicate that the binding energy-angular momentum relationship to the innermost stable circular orbit derived from EOB theory is in remarkable agreement with NR data. This revised dictionary enhances the applicability of gravitational observables derived from scattering processes to bound orbits and effectively fulfills the objectives envisioned by the pioneers who proposed this correspondence.