High Precision K-Shell Photoabsorption Cross Sections for Atomic Oxygen: Experiment and Theory

Abstract

Photoabsorption of atomic oxygen in the energy region below the 1s-1 threshold in x-ray spectroscopy from Chandra and XMM-Newton is observed in a variety of x-ray binary spectra. Photoabsorption cross sections determined from an R-matrix method with pseudo-states (RMPS) and new, high precision measurements from the Advanced Light Source (ALS) are presented. High-resolution spectroscopy with E/ ≈ 4,250 400 was obtained for photon energies from 520 eV to 555 eV at an energy resolution of 124 12 meV FWHM. K-shell photoabsorption cross-section measurements were made with a re-analysis of previous experimental data on atomic oxygen at the ALS. Natural linewidths are extracted for the 1s-12s22p4 (4P)np 3P and 1s-12s22p4(2P)np ~3P Rydberg resonances series and compared with theoretical predictions. Accurate cross sections and linewidths are obtained for applications in x-ray astronomy. Excellent agreement between theory and the ALS measurements is shown which will have profound implications for the modelling of x-ray spectra and spectral diagnostics.