@article{ARTICLE,
      recid = {2623},
      author = {Küstner-Wetekam, C. and Hu, X. Q. and Marder, L. and  Schmidt, Philipp and Ozga, C. and Zindel, Ch. and Otto, H.  and Peng, Y. G. and Wang, J. G. and Richter, C. and  Sisourat, N. and Hergenhahn, U. and Knie, A. and Ehresmann,  A. and Wu, Y. and Hans, A.},
      title = {Nature and impact of charge transfer to ground-state  dications in atomic and molecular environments},
      publisher = {American Physical Society},
      journal = {Phys. Rev. A. Physical Review A},
      address = {2021},
      number = {ARTICLE},
      year = {2021},
      abstract = {Charge transfer processes between weakly bound entities  play an important role in various chemical and biological  environments. In this combined experimental and theoretical  work, we investigate the nature of charge-transfer  processes in homogeneous atomic and heterogeneous  atomic-molecular clusters. Our results reveal fundamentally  different processes to be at play in pure argon clusters  compared to mixed argon-nitrogen systems: We demonstrate  that the former species decay via photon-mediated charge  transfer while a nonradiative direct process is found  dominant in the atomic-molecular cases. Our results are of  general interest for studies on charge redistribution in  more complex and biologically relevant samples where  molecules are involved.},
      url = {http://xfel.tind.io/record/2623},
      doi = {10.1103/PhysRevA.104.042802},
}