Abstract
Direct muon transfer in low-energy collisions of the muonic hydrogen H μ and helium (He ++) is considered in a three-body quantum-mechanical framework of coordinate-space integro-differential Faddeev–Hahn-type equations within two- and six-state close coupling approximations. The final-state Coulomb interaction is treated without any approximation employing appropriate Coulomb waves in the final state. This procedure of treating Coulomb interaction leads to much improved results for low-energy transfer rates. The present results agree reasonably well with previous semiclassical calculations.
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