The direct Coulomb explosion of N2O2+has been investigated experimentally after double-ionization by a single extreme ultraviolet(EUV)photon with an energy of ~38.5 eV.From the ion–ion time-of-flight coincidence spec...The direct Coulomb explosion of N2O2+has been investigated experimentally after double-ionization by a single extreme ultraviolet(EUV)photon with an energy of ~38.5 eV.From the ion–ion time-of-flight coincidence spectrum,the de-nitrogenation(N2O2+→N++NO+)and de-oxygenation(N2O2+→O++N+2)photodissociation channels of N2O2+are unequivocally identified.The measured kinetic energy release(KER)distribution of the de-nitrogenation channel presents a major peak accompanied by a shoulder structure.We find that the major peak can be attributed to the direct photodissociation of the 11△and 1^1Σ+states,while the shoulder structure should be ascribed to the predissociation of the1^1△and 1^1Σ+states via 13Πstate.展开更多
基金National Key Research and Development Program of China(Grant No.2017YFA0402300).
文摘The direct Coulomb explosion of N2O2+has been investigated experimentally after double-ionization by a single extreme ultraviolet(EUV)photon with an energy of ~38.5 eV.From the ion–ion time-of-flight coincidence spectrum,the de-nitrogenation(N2O2+→N++NO+)and de-oxygenation(N2O2+→O++N+2)photodissociation channels of N2O2+are unequivocally identified.The measured kinetic energy release(KER)distribution of the de-nitrogenation channel presents a major peak accompanied by a shoulder structure.We find that the major peak can be attributed to the direct photodissociation of the 11△and 1^1Σ+states,while the shoulder structure should be ascribed to the predissociation of the1^1△and 1^1Σ+states via 13Πstate.
