@article{KHF14,
  abstract = {Interatomic coulombic decay (ICD), a radiationless transition in weakly bonded systems, such as\r solutes or van der Waals bound aggregates, is an effective source for electrons of low kinetic\r energy. So far, the ICD processes could only be probed in ultra-high vacuum by using electron and/or\r ion spectroscopy. Here we show that resonant ICD processes can also be detected by measuring the\r subsequently emitted characteristic fluorescence radiation, which makes their study in dense media\r possible.},
  author = {Knie, Andr{\'{e}} and Hans, Andreas and F{\"{o}}rstel, Marko and Hergenhahn, Uwe and Schmidt, Philipp and Rei{\ss}, Philipp and Ozga, Christian and Kambs, Benjamin and Trinter, Florian and Voigtsberger, J{\"{o}}rg and Metz, Daniel and Jahnke, Till and D{\"{o}}rner, Reinhard and Kuleff, Alexander I. and Cederbaum, Lorenz S. and Demekhin, Philipp V. and Ehresmann, Arno},
  doi = {10.1088/1367-2630/16/10/102002},
  file = {:C\:/Users/Philipp/Documents/Literatur/Paper/2014-Knie-NJPhys-16-102002-Detecting ICD in media by fluorescence.pdf:pdf},
  interhash = {c941d9858e034342ecac10ffff333d50},
  intrahash = {dafdd4208351e865c59a769283d9ccfc},
  issn = {1367-2630},
  journal = {New J. Phys.},
  month = oct,
  number = 10,
  pages = 102002,
  publisher = {IOP Publishing},
  title = {{Detecting ultrafast interatomic electronic processes in media by fluorescence}},
  url = {http://stacks.iop.org/1367-2630/16/i=10/a=102002?key=crossref.382d5aef6763a821072813c28ec9210a},
  volume = 16,
  year = 2014
}