The elastic scattering amplitude obtained from an open pseudostate calculation employing the algebraic variational method for partial waves of angular momentum $0<L<\mathrm{}3\mathrm{}$, is combined with phase shifts obtained in the extended polarization approximation for $4<L<\mathrm{}99\mathrm{}$ to obtain elastic differential cross sections for electron-hydrogen scattering for electron energies in the range 10-30 eV. Elastic angular distributions have been measured using a crossed-electron modulated-atom-beam method and absolute cross-section values determined using a phase-shift analysis method. The measurements include energies from 10 to 30 eV and angles from 10° to 140° with estimated experimental error limits of ± 17%. Within these error limits they are in agreement with the theoretical predictions except at 20 to 26 eV for angles greater than or equal to 120°, where the theoretical values are significantly higher than allowed by these error limits.

• Received 19 May 1975

DOI:https://doi.org/10.1103/PhysRevA.12.2312