The bond length of ^4HeH^+ resulting from collision-induced destruction is measured at 1.4420 MeV using the Coulomb Explosion Technique. The measured bond length of ^4HeH^+ is 0.094±0.003nm. The bond length of ...The bond length of ^4HeH^+ resulting from collision-induced destruction is measured at 1.4420 MeV using the Coulomb Explosion Technique. The measured bond length of ^4HeH^+ is 0.094±0.003nm. The bond length of ^4HeH^+ obtained with our radio frequency (RF) ion source is larger than that obtained with a duoplasmatron ion source at Argonne National Laboratory (ANL), but the bond lengths of H^+2 and H^+3obtained separately by ANL and by us with the two different ion sources are consistent with each other, which implies that there exists an ion source effect on the bond length of ^4HeH^+. The main reason why the 4^4HeH^+ bond lengths obtained by the two different ion sources are different is also discussed.展开更多
基金Project supported by the National Natural Science Foundation of China (Grant Nos 10175041 and 10375040).
文摘The bond length of ^4HeH^+ resulting from collision-induced destruction is measured at 1.4420 MeV using the Coulomb Explosion Technique. The measured bond length of ^4HeH^+ is 0.094±0.003nm. The bond length of ^4HeH^+ obtained with our radio frequency (RF) ion source is larger than that obtained with a duoplasmatron ion source at Argonne National Laboratory (ANL), but the bond lengths of H^+2 and H^+3obtained separately by ANL and by us with the two different ion sources are consistent with each other, which implies that there exists an ion source effect on the bond length of ^4HeH^+. The main reason why the 4^4HeH^+ bond lengths obtained by the two different ion sources are different is also discussed.
