Nuclear Physics and Atomic Energy

Ядерна фізика та енергетика
Nuclear Physics and Atomic Energy

  ISSN: 1818-331X (Print), 2074-0565 (Online)
  Publisher: Institute for Nuclear Research of the National Academy of Sciences of Ukraine
  Languages: Ukrainian, English
  Periodicity: 4 times per year

  Open access peer reviewed journal

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Nucl. Phys. At. Energy 2011, volume 12, issue 1, pages 54-62.
Section: Nuclear Physics.
Received: 02.02.2011; Published online: 30.03.2011.
PDF Full text (ru)
https://doi.org/10.15407/jnpae2011.01.054

Investigation of 3He(p, 2p)d reaction in T-matrix and diffraction approximations at intermediate energies

V. V. Davydovskyy, A. D. Foursat

Institute for Nuclear Research, National Academy of Sciences of Ukraine, Kyiv, Ukraine

Abstract: In the framework of Т-matrix approximation with distorted waves, as well as with the help of generalized theory of multiple scattering, the investigation of 3He(p, 2p)d reaction of two-particle break-up of 3He into proton and deuteron is carried out. Phenomenological wave functions, which describe ground state of 3He and 2H nuclei, are used. The integral of their overlap is calculated. Calculations of the energy resolved correlation spectra of protons in the reaction as well as comparison with the experiment are carried out for the incident proton energies of 50 and 65 MeV in a coplanar geometry. A good agreement with experiment has confirmed a principal importance of taking into account the longitudinal transferred momentum for quantitative description of the data in the framework of DTMS. Even a qualitative description of data on angular correlation of the break-up products cannot be achieved in principle without taking into account the longitudinal transferred momentum. It is shown that the effects of multiple scattering and final state interaction between products of reaction play an important role in the description of observable characteristics of the process.

Keywords: diffraction approximation, two-particle break-up, reactions on light nuclei.

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