Model independent analysis of polarization effects in elastic proton-electron scattering

TL;DR

This paper derives model-independent formulas for polarization effects in elastic proton-electron scattering, providing numerical estimates across various energies and momentum transfers to aid experimental analysis.

Contribution

It introduces model-independent expressions for polarization observables in elastic proton-electron scattering, enhancing theoretical understanding and experimental applicability.

Findings

Derived formulas for differential cross section and polarization observables

Numerical estimates for spin correlation, transfer, and depolarization coefficients

Analysis across a wide range of incident energies and transferred momenta

Abstract

The experimental observables for the elastic reaction induced by protons on electrons are calculated in the Born approximation. Model independent expressions are derived for the differential cross section and polarization observables. Numerical estimations are given for spin correlation coefficients, polarization transfer coefficients and depolarization coefficients, in a wide kinematical range. Specific attention is given to the kinematical conditions, i.e., to the specific range of incident energy and transferred momentum.