Study of Deuteron Stripping Reaction by Coupled Channel Theory. I : Variational Formulation and Discussion on Basic Equations
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概要
- 論文の詳細を見る
Close coupling equations for the rearrangement reaction A+d→B+p are derived from a variational principle for reaction amplitude assuming the usual stripping mechanism. The sum of the wave functions of the deuteron and proton channels is used as a trial function. An exact and simple expression for the error introduced into the reaction amplitude is also derived by applying the theory of finite variations. Our variational principle is not affected by the existence of ambiguity in defining the proton and deuteron wave functions of relative motion, which should be carefully considered for rearrangement reaction because of the "nonorthogonality" or channels. The origin of this non-uniqueness and the induced ambiguity in the optical potentials are discussed in connection with the relation between the present method and the method of the projection operators. The interaction kernel consists of two parts, one coming from the usual V_<np>+V_<pA>-U_<pB> term and the other due to the non-orthogonality of the initial and final channel wave functions. It is shown that DWBA is obtained only if the whole interaction kernel (not V_<np>+V_<pA>-U_<pB> alone) is considered as perturbation. The relation between the present method and the methods of projection operators is discussed.
- 理論物理学刊行会の論文
- 1969-02-25
著者
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Kawai Mitsuji
Department Of Physics Kyushu University
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Ohmura Takashi
Department Of Physics And Atomic Energy Research Institute Nihon University
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Ohmura Takashi
Department Of Cardiology Mie Central Medical Center
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今西 文龍
東大 原子核研
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Ichimura Munetake
Institute Of Physics College Of General Education University Of Tokyo
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Ichimura Munetake
Department Of Physics And Atomic Energy Research Institute College Of Science And Engineering Nihon
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IMANISHI Bunryu
Department of Physics and Atomic Energy Research Institute Nihon University
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IMANISHI Bunryu
Department of Physics, College of Science and Engineering Nihon University
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OHMURA Takashi
Department of Physics, College of Science and Engineering Nihon University
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ICHIMURA Munetake
Department of Physics, College of Science and Engineering Nihon University
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