Toward the Application of Three-Dimensional Approach to Few-body Atomic Bound States
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2009-01-01
Autores
Hadizadeh, M. R. [UNESP]
Tomio, L.
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E D P Sciences
Resumo
The first step toward the application of an effective non partial wave (PW) numerical approach to few-body atomic bound states has been taken. The two-body transition amplitude which appears in the kernel of three-dimensional Faddeev-Yakubovsky integral equations is calculated as function of two-body Jacobi momentum vectors, i.e. as a function of the magnitude of initial and final momentum vectors and the angle between them. For numerical calculation the realistic interatomic interactions HFDHE2, HFD-B, LM2M2 and TTY are used. The angular and momentum dependence of the fully off-shell transition amplitude is studied at negative energies. It has been numerically shown that, similar to the nuclear case, the transition amplitude exhibits a characteristic angular behavior in the vicinity of He-4 dimer pole.
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19th International Iupap Conference on Few-body Problems In Physics. Cedex A: E D P Sciences, v. 3, p. 8, 2009.