Abstract
Using a high-resolution (Δ E≈1 meV) laser photoelectron attachment method, we have studied cluster anion formation in collisions of low-energy electrons (1–180 meV) with (N 2O) N clusters. We show that formation of both heterogeneous cluster anions (N 2O) q O − ( q< N) and (as a minor channel) of homogeneous anions (N 2O) p − ( p⩽ N) is mediated through narrow, weakly red-shifted vibrational Feshbach resonances of the type [(N 2O) N−1 ·N 2O( ν i )] − ( ν i denotes vibrational excitation). For the first time direct information has been obtained on the relationship between the size q of the heterogenous anions and the size p of the homogeneous anions ( p– q≈2–3 for p=8, 9, 11, 13), as formed from the same precursor cluster size involved in the vibrational Feshbach resonance. The electron-cluster binding energies are recovered from model calculations based on appropriate short- and long-range forces.
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