A Benchmark Study of the Relativistic Plane Wave Impulse Approximation for Polarized (p,2p\,) Reactions on the 3s1/2 state in 208Pb at 392 MeV

Abstract

The Relativistic Plane Wave Impulse Approximation (RPWIA) is benchmarked against the established Relativistic Distorted Wave Impulse Approximation (RDWIA) for exclusive proton-induced proton knockout reactions (p,2p\,) from the 3s1/2 state in 208Pb at 392 MeV. While the RDWIA provides the proper description of the reaction, the RPWIA-which neglects nuclear distortion and absorption effects-fails dramatically for absolute cross-sections, requiring a scaling factor of 126 to match the data. However, within 10 MeV of the recoilless condition, the RPWIA quantitatively describes the analyzing power (Ay) data and yields similar results as the RDWIA predictions for all polarization transfer observables (Di'j). These polarization transfer observables are insensitive to the choice of the Relativistic Mean Field model used. The study establishes clear boundaries for the RPWIA's utility: computationally simple predictions for polarization observables near zero recoil, but essential reliance on the RDWIA for spectroscopic factor extraction.