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JOURNAL ARTICLE

Coulomb Force Effects in Deuteron--Proton Breakup Reaction

I. CiepałB. KłosA. KozelaE. StephanSt. KistrynA. BiegunK. BodekA. DeltuvaM. R. EslamiV. JhaN. Kalantar-NayestanakiG. KhatriDa. KirillovDi. KirillovS. KliczewskiM. KravčíkováP. KulessaH. MachnerA. MagieraG. MartinskáJ. G. MesschendorpW. ParolA. Ramazani-Moghaddam-AraniB. J. RoyH. SakaiK. SekiguchiI.M. SitnikR. SiudakI. Skwira-ChalotR. SworstJ. UrbánJ. Zejma

Year: 2015 Journal:   Acta Physica Polonica B Vol: 46 (3)Pages: 459-459   Publisher: Jagiellonian University
DOI: 10.5506/aphyspolb.46.459
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Abstract

A large set of cross-section data for the ^{1}H(d,pp)n breakup reaction was measured at 130 MeV deuteron beam energy with the Germanium Wall setup covering the range of very forward polar angles. In the investigated part of the phase-space, the dynamics is dominated by the Coulomb force influence. The data are compared with results of theoretical calculations based on the realistic Argonne V18 potential supplemented with the long-range electromagnetic component. The predictions also include the Urbana IX three nucleon force model. The cross-section data reveal seizable Coulomb force effects.

Keywords:
Physics Breakup Deuterium Coulomb Nuclear physics Proton Coulomb's law Nuclear force Atomic physics Quantum electrodynamics Nucleon Mechanics

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Topics

Nuclear physics research studies
Physical Sciences →  Physics and Astronomy →  Nuclear and High Energy Physics
Nuclear Physics and Applications
Physical Sciences →  Physics and Astronomy →  Radiation
Nuclear reactor physics and engineering
Physical Sciences →  Engineering →  Aerospace Engineering

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