Abstract
The H+-H collisional system is revisited in order to study the nature and the effects of the non-adiabatic 2p sigma u-np sigma u radial couplings in the range of internuclear distances 0<R<2 a0. To investigate whether these couplings reflect pseudo-crossings caused by the 'super-promotion' of an exotic state the authors build alternatively diabatic representations that preserve the characteristics of the two-centre separated-atom wavefunctions or those of the single-centre united-atom wavefunctions. It is found that none of the considered approaches supports a curve-crossing view. They demonstrate that the common bell-shaped form of the (2p sigma u mod delta / delta R mod np sigma u) matrix elements is not an exclusive property of the 2p sigma u state and the authors uncover a duplication property of all the (np sigma u mod delta / delta R mod n'p sigma u) non-adiabatic couplings. Finally, calculations of the probabilities of electron transitions due to these couplings show that a 10% leakage from the adiabatic 2p sigma u state does occur at small impact parameters at collision energies above 1 keV.
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