Lowest vibrational states of 4He3He+: Non-Born-Oppenheimer calculations
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Stanke, Monika
Ke¸dziera, Dariusz
Bubin, Sergiy
Molski, Marcin
Adamowicz, Ludwik
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Abstract
Very accurate quantum mechanical calculations of the first five vibrational states of the 4He3He+ molecular
ion are reported. The calculations have been performed explicitly including the coupling of the electronic and
nuclear motions i.e., without assuming the Born-Oppenheimer BO approximation . The nonrelativistic
non-BO wave functions were used to calculate the 2 relativistic mass velocity, Darwin, and spin-spin interaction
corrections. For the lowest vibrational transition, whose experimental energy is established with high
precision, the calculated and the experimental results differ by only 0.16 cm−1
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Monika Stanke, Dariusz Ke¸dziera, Sergiy Bubin, Marcin Molski, Ludwik Adamowicz; 2007; Lowest vibrational states of 4He3He+: Non-Born-Oppenheimer calculations; PHYSICAL REVIEW A
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