Investigation of Adiabatic Approximation of Deuteron-Breakup Effect on (d, p) Reactions
スポンサーリンク
概要
- 論文の詳細を見る
The defect of adiabatic approximation for (d,p) reactions is investigated in the d+^<58>Ni system at E_d=80MeV. It is shown that the breakup wave functions play an important role in the T-matrix elements of (d, p) reactions and the approximation gives an insufficient description of these wave functions.
- 理論物理学刊行会の論文
- 1983-03-25
著者
-
Yahiro M
Univ. Ryukyus Okinawa Jpn
-
Nakano Masahiro
Division of Information Science, School of Health Science, University of Occupational and Environmen
-
Iseri Y
Chiba-keizai College
-
Iseri Yasunori
Department Of Physics Chiba-keizai College
-
Yahiro Masanobu
Shimonoseki University Of Fisheries
-
Yahiro Masanobu
Department Of Physics Kyushu Unversity
-
Nakano Masahiro
Division Of Physics University Of Occupational And Environmental Health
-
Nakano Masahiro
Division Of Information Science School Of Health Science University Of Occupational And Environmenta
関連論文
- Effects of Volunteering at Welfare Facilities in Japanese Senior Citizens on Their Own Well-being
- A CDCC Study of ^11Be ⟶ ^10Be+n Breakup Effect on the ^11Be Elastic Scattering
- A CDCC Study of ^Be →^Be+n Breakup Effect on the ^Be Elastic Scattering
- Chapter IV Coupled-Channels Approach to Deuteron and ^3He Breakup Reactions
- Chapter III Effects of Deuteron Virtual Breakup on Deuteron Elastic and Inelastic Scattering
- Chapter I Projectile Breakup Processes in Nuclear Reactions
- Coupled-Channels Approach to Deuteron and 3He Breakup Reactions (Coupled-Channels Theory of Breakup Processes in Nuclear Reactions)
- Investigation of Adiabatic Approximation of Deuteron-Breakup Effect on (d, p) Reactions
- Coupled-Discretized-Continuum-Channels Method for Deuteron Breakup Reactions Based on Three-Body Model : Justification of the Method for Truncation and Discretization of the p-n Continuum
- Singlet-State Contributions to Deuteron Tensor Interactions : Progress Letters
- 量子3体系に対するCDCC法アプロ-チ〔英文〕 (高励起領域における分子的様相と重イオン反応機構(研究会報告))
- A Nonperturbative Renormalization Group Procedure for Light-Front Hamiltonian
- Adiabatic Perturbation Theory on Reactions Induced by Weakly Bound Particles at Higher Incident Energies : Nuclear Physics
- Chapter VI Microscopic Coupled-Channels Study of Scattering and Breakup of Light Heavy-Ions
- Elastic Scattering and Breakup of ^6Li : A New Type of Dynamical Polarization Potential
- Projectile Breakup Effect on ^6Li Elastic Scattering from ^Si and ^Ca Studied by Microscopic Coupled-Channels Method
- Test of the Method of Continuum Discretized Coupled Channel for Deuteron Induced Reactions
- Properties of Nuclear and Coulomb Breakup of 8B