Shake-up and shake-off spectra in the electron capture decay of atomic 7Be

Abstract

The most stringent laboratory-based experimental limits on the existence of sub-MeV sterile neutrinos are currently set by decay spectroscopy of radioactive 7Be embedded into superconducting sensors. The systematic uncertainties are dominated by the modeling of the electron shake-up and shake-off spectra that are not based on state-of-the-art atomic theory and do not include electron correlations or relativistic effects. We have used the multiconfiguration Dirac-Fock formalism to obtain correlated wavefunctions ab initio and compute all single and double shake processes in the electron capture decay of atomic 7Be. The simulations can explain some but not all of the observed spectral features, likely because the wave functions are modified by the Ta sensor material that the 7Be is embedded into. The new models also show that the L/K electron capture ratio of 7Be in Ta has previously been slightly underestimated revising the previous value of 0.070(7) to a new value of 0.0756(20).