In the present work, the molecular continuum-distorted-wave approximation is formulated for the single-electron capture reaction from [Formula Presented] targets. The initial bound wave function is distorted by a projectile-electron continuum factor. In the exit channel, the final electronic wave function is distorted by a product of the continuum factors corresponding to the interaction between the electron and each one of the nuclei of the target. The doubly differential cross sections as a function of the projectile scattering angle are evaluated for different molecular alignments for the case of proton impact. © 1997 The American Physical Society.
Differential cross sections for electron capture from H 2+ within the continuum-distorted-wave approximation
Corchs S. E.
;
1997-01-01
Abstract
In the present work, the molecular continuum-distorted-wave approximation is formulated for the single-electron capture reaction from [Formula Presented] targets. The initial bound wave function is distorted by a projectile-electron continuum factor. In the exit channel, the final electronic wave function is distorted by a product of the continuum factors corresponding to the interaction between the electron and each one of the nuclei of the target. The doubly differential cross sections as a function of the projectile scattering angle are evaluated for different molecular alignments for the case of proton impact. © 1997 The American Physical Society.
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