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Preprint

Wigner time delay of a particle elastically scattered by a cluster of zero-range potentials

M. Ya. AmusiaRacah Institute of Physics, the Hebrew University, 91904, Jerusalem, IsraelA. S. BaltenkovArifov Institute of Ion-Plasma and Laser Technologies, 100125, Tashkent, UzbekistanIgor WoiciechowskiAlderson Broaddus University, 101 College Hill Drive, WV 26416, Philippi, USA
arXiv (Cornell University)repository2021en
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The Wigner time delay of slow particles in the process of their elastic scattering by complex targets formed by several zero-range potentials is investigated. It is shown that at asymptotically large distances from the target, the Huygens-Fresnel interference pattern formed by spherical waves emitted by each of the potentials is transformed into a system of spherical waves generated by the geometric center of the target. These functions determine flows of particles in and out through the surface of the sphere surrounding the target. The energy derivatives of phase shifts of these functions are the partial Wigner time delay. General formulas that connect the s-phase shifts of particle scattering by each of the zero-range potentials with the phases of particle scattering by the potential cluster forming the target are obtained. Model targets consisting of two-, three- and 4-centers are considered. It is assumed that these targets are built from identical delta-potentials with equal distances between their centers. The partial Wigner time delay of slow particles by considered targets are obtained. We apply the derived general formulas to consideration of electron scattering by atomic clusters that trap electron near the target, and by calculating the times delay of mesons scattered by few-nucleons systems.

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