Long-range behavior of the optical potential for the elastic scattering of charged composite particles

Abstract

The asymptotic behavior of the optical potential, describing elastic scattering of a charged particle α off a bound state of two charged, or one charged and one neutral, particles at small momentum transfer α or equivalently at large intercluster distance α, is investigated within the framework of the exact three-body theory. For the three-charged-particle Green function that occurs in the exact expression for the optical potential, a recently derived expression, which is appropriate for the asymptotic region under consideration, is used. We find that for arbitrary values of the energy parameter the non-static part of the optical potential behaves for α → 0 as C1α + o\,(α). From this we derive for the Fourier transform of its on-shell restriction for α → ∞ the behavior -a/2α4 + o\,(1/α4), i.e., dipole or quadrupole terms do not occur in the coordinate-space asymptotics. This result corroborates the standard one, which is obtained by perturbative methods. The general, energy-dependent expression for the dynamic polarisability C1 is derived; on the energy shell it reduces to the conventional polarisability a which is independent of the energy. We emphasize that the present derivation is non-perturbative, i.e., it does not make use of adiabatic or similar approximations, and is valid for energies below as well as above the three-body dissociation threshold.

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