Chapter V Coupled-Channels Variational Method for Nuclear Breakup and Rearrangement Processes
スポンサーリンク
概要
- 論文の詳細を見る
Formalism of coupled-channels variational method is sketched and then applied to the analysis of ^<16>O(d, d)^<16>O, ^<17>O(1s, 3.27 MeV) and ^<17>O(1s)(p, p)^<17>O(1s) reactions at 11~60 MeV. It is found that the effect of coupling of the proton channel is significant at 11 MeV, but decreases rapidly as energy increases, and may be neglected at gsim40 MeV. The effect of the coupling of deuteron breakup channels tends to decrease as energy increases_l but more slowly than the proton channel coupling. It is still non-negligible at 60 MeV.
- 理論物理学刊行会の論文
- 1987-03-25
著者
-
Kawai Mitsuji
Department Of Physics Kyushu University
-
Kamimura Masayasu
Department Of Physics Kyushu University
-
Takesako Kazuo
Department Of Applied Physics Fukuoka University
-
TAKESAKO Kazuo
Department of Applied Physics, Fukuoka University
関連論文
- Big-Bang Nucleosynthesis Reactions Catalyzed by a Long-Lived Negatively Charged Leptonic Particle(Nuclear Physics)
- S=-2 Hypernuclear Structure(Chapter II.,Hypernuclei and Baryon-Baryon Interaction)
- S=-1 Hypernuclear Structure(Chapter II.,Hypernuclei and Baryon-Baryon Interaction)
- Strength of the Σ Single-Particle Potential in Nuclei from Semiclassical Distorted Wave Model Analysis of the (π^-, K^+) Inclusive Spectrum
- Bare Potential DWBA in Rearrangement Reactions : Nuclear Physics
- Analysis of (K^-,K^+) Inclusive Spectrum with Semiclassical Distorted Wave Model(Nuclear Physics)
- Three- and Four-Body Cluster Models of Hypernuclei Using the G-Matrix ΛN Interaction : ^9_ΛBe, ^_ΛC, ^6_He and ^_Be : Nuclear Physics
- ^6He+^6He Molecular States in Highly-Excited ^12Be
- ^6He+^6He Molecular States in Highly-Excited ^Be
- Capter V Microscopic Study of the Interaction between Complex Nuclei
- 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-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
- Role of the Quark-Quark Correlation in Baryon Structure and Non-Leptonic Weak Transitions of Hyperons(Nuclear Physics)
- Four- and Five-Body Scattering Calculations of Exotic Hadron Systems(Pentaquarks and related topics, Exotic hadrons, New Frontiers in QCD-Exotic Hadrons and Hadronic Matter-)
- Bare Potential DWBA for (d,p) Reactions
- A New Glauber Theory Based on Multiple Scattering Theory(Nuclear Physics)
- A Method of Approximation for the Form Factor of the Nuclear Stripping and Pick-up Reactions
- An Approximation for Form Factors of Nuclear Stripping and Pick-up Reactions
- Capter II Comprehensive Study of Alpha-Nuclei
- Is Muon-Catalyzed d-^3He Fusion Possible?(Microscopic Cluster Models of Light Nuclei and Related Topics)
- Foundations of the Continuum-Discretized Coupled Channels Analysis of the Deuteron-Nucleus Three-Body Model : Nuclear Physics
- On a Calculational Method of Folding Model Potential with Density-Dependent Effective Interactions : Progress Letters
- Study of Deuteron Stripping Reaction by Coupled Channel Theory. III : Numerical Results without Non-Orthogonality
- Study of Deuteron Stripping Reaction by Coupled Channel Theory. II : Properties of Interaction Kernel and Method of Numerical Solution
- Study of Deuteron Stripping Reaction by Coupled Channel Theory. I : Variational Formulation and Discussion on Basic Equations
- Alpha-Like Spatial Four-Body Correlations in Light Nuclei : Vertically-Truncated-Subspace Shell Model for the Core Plus Four-Particle System
- The (p,d) (d,t) Process in Strong (p,t) Reactions
- 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
- A Study of α-Widths of ^Ne Based on ^O and α-Cluster Model
- Chapter V A Coupled Channel Variational Method for Microscopic Study of Reactions between Complex Nuclei
- The Generator Coordinate Method for Composite-Particle Scattering Based on the Kohn-Hulthen Variational Principle : Application to α-α, ^O-^O scattering
- Electron-Scattering Form Factors and α-Clustering Structure of ^Ne
- Quantum Three-Body Calculation of the Nonresonant Triple-α Reaction Rate at Low Temperatures
- Test of the Method of Continuum Discretized Coupled Channel for Deuteron Induced Reactions
- The Spin-Flip Scattering of High Energy Protons by Light Nuclei
- A Coupled Channel Variational Method for Multi-Step Direct Nuclear Reactions. II : Test on a (d,p) Reaction
- A Coupled Channel Variational Method for Multi-Step Direct Nuclear Reactions. I : Formalism and Numerical Test
- Chapter V Coupled-Channels Variational Method for Nuclear Breakup and Rearrangement Processes
- Study of the Alpha-Clustering Structure of ^Ne Based on the Resonating Group Method for ^O+α : Analysis of Alpha-Decay Widths and the Exchange Kernel
- Chapter II Formalism of the Method of Coupled Discretized Continuum Channels
- The Semi-classical Model for the Nuclear Reactions at Intermediate Energies
- S=-2 Hypernuclear Structure
- S=-1 Hypernuclear Structure
- Strength of the Σ Single-Particle Potential in Nuclei from Semiclassical Distorted Wave Model Analysis of the (π^-, K^+) Inclusive Spectrum