This study measured the spontaneous decays of internally hot copper and silver dimer anions. It found that after a certain storage time, electron emission replaces fragmentation as the dominant decay path, and the branching ratios between the two processes are similar.
We measured the spontaneous decays of internally hot copper and silver dimer anions, Cu-2 and Ag-2, stored in one of the two ion-beam storage rings of the Double Electrostatic Ion Ring Experiment (DESIREE) at Stockholm University. A coincidence detection technique was utilized enabling essentially background-free measurements of Cu-2 -> Cu + Cu- and Ag-2 -> Ag + Ag- fragmentation rates. Furthermore, the total rates of neutral decay products (monomers and dimers) were measured and the relative contributions of fragmentation and electron emission (Cu-2 -> Cu2 + e- and Ag-2 -> Ag2 + e-) were deduced as functions of storage time. Fragmentation is completely dominant at early times. However, after about 20 ms of storage, electron emission is observed and becomes the leading decay path after 100 ms for both dimer anions. The branching ratios between fragmentation and electron emission (vibrationally assisted autodetachment processes) are very nearly the same for Cu-2 and Ag-2 throughout the present storage cycle of 10 seconds. This is surprising considering the difference between the electron affinities of the neutral dimers, Cu2 and Ag2, and the difference between the Cu-2 and the Ag- 2 dissociation energies.
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