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

Journal Article · · Physical Review A
 [1];  [2]
  1. Institut fuer Physik, Universitaet Mainz, D-55099 Mainz (Germany)
  2. Cyclotron Institute, Texas A&M University, College Station, Texas 77843 (United States)
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The asymptotic behavior of the optical potential, describing elastic scattering of a a charged particle {alpha} off a bound state of two charged, or one charged and one neutral, particles at small momentum transfer {Delta}{sub {alpha}} or, equivalently, at large intercluster distance {rho}{sub {alpha}}, 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 nonstatic part of the optical potential behaves for {Delta}{sub {alpha}}{r_arrow}0 as {ital C}{sub 1}{Delta}{sub {alpha}}+{ital o}({Delta}{sub {alpha}}). From this we derive for the Fourier transform of its on-shell restriction for {rho}{sub {alpha}}{r_arrow}{infinity} the behavior {minus}{ital a}/2{rho}{sub {alpha}}{sup 4}+{ital o}(1/{rho}{sub {ital a}}{sup 4}), 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 polarizability {ital C}{sub 1} is derived; on the energy shell it reduces to the conventional polarizability {ital a} which is independent of the energy. We emphasize that the present derivation is {ital nonperturbative}, i.e., it does not make use of adiabatic or similar approximations, and is valid for energies {ital below} {ital as} {ital well} {ital as} {ital above} {ital the} {ital three{minus}body} {ital dissociation} {ital threshold}.

DOE Contract Number:
FG03-93ER40773
OSTI ID:
46373
Journal Information:
Physical Review A, Journal Name: Physical Review A Journal Issue: 5 Vol. 51; ISSN 1050-2947; ISSN PLRAAN
Country of Publication:
United States
Language:
English

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Related Subjects

66 PHYSICS
CHARGED PARTICLES
ELASTIC SCATTERING
INTERACTION RANGE
POTENTIALS
THREE-BODY PROBLEM