Electron-electron correlation in two-photon double ionization of He-like ions

Abstract

Electron correlation plays a crucial role in quantum many-body physics ranging from molecular bonding and strong-field--induced multielectron ionization, to superconducting in materials. Understanding the dynamic electron correlation in the photoionization of relatively simple quantum three-body systems, such as He and He-like ions, is an important step toward manipulating complex systems through photoinduced processes. Here we have performed ab initio investigations of two-photon double ionization (TPDI) of He and He-like ions $(\mathrm{L}{\mathrm{i}}^{+},\mathrm{B}{\mathrm{e}}^{2+}$, and ${\mathrm{C}}^{4+})$ exposed to intense attosecond x-ray pulses. Results from such fully correlated quantum calculations show weaker and weaker electron correlation effects in TPDI spectra as the ionic charge increases, which is opposite to the intuition that the absolute increase of correlation in the ground state should lead to more equal energy sharing in photoionization. These findings indicate that the final-state electron-electron correlation ultimately determines the energy sharing of the two ionized electrons in TPDI.