Through measuring the energy distributions of H+ and D+ fragments for HD+2 beam incident on carbon foils at energy 1.4977 MeV, a very large ‘wake effect’ has been found and the structure of HD+2 has been determined....Through measuring the energy distributions of H+ and D+ fragments for HD+2 beam incident on carbon foils at energy 1.4977 MeV, a very large ‘wake effect’ has been found and the structure of HD+2 has been determined. The result shows an asymmetry configuration for HD+2. It agrees with other experimental results and support several assumptions.展开更多
the discussion is on the following experimental results: The energy distribution of the H + and D + fragments resulting from the dissociation of HD + 2 molecular ions at energy 1.497 7 MeV has been measured using the ...the discussion is on the following experimental results: The energy distribution of the H + and D + fragments resulting from the dissociation of HD + 2 molecular ions at energy 1.497 7 MeV has been measured using the Coulomb explosion technique. The spectra were used to determine the binding energy of HD + 2 and its structure. There existed differences between the spectral structures for proton and for deuteron.展开更多
文摘Through measuring the energy distributions of H+ and D+ fragments for HD+2 beam incident on carbon foils at energy 1.4977 MeV, a very large ‘wake effect’ has been found and the structure of HD+2 has been determined. The result shows an asymmetry configuration for HD+2. It agrees with other experimental results and support several assumptions.
文摘the discussion is on the following experimental results: The energy distribution of the H + and D + fragments resulting from the dissociation of HD + 2 molecular ions at energy 1.497 7 MeV has been measured using the Coulomb explosion technique. The spectra were used to determine the binding energy of HD + 2 and its structure. There existed differences between the spectral structures for proton and for deuteron.