S-Wave Neutron Resonance : 1/2^+ State of ^<9>
スポンサーリンク
概要
- 論文の詳細を見る
It is shown that, although s-wave neutron resonance is ruled out in a conventional form of nuclear potential, the polarization of the deformed core nucleus can produce 1/2^+ resonance. Using the coupled-channel method, we obtain this result concerning the 1/2^+ state of ^<9>Be. The state may be one example of the resonances suggested by the optical potential theory of Feshbach.
- 理論物理学刊行会の論文
- 1972-09-25
著者
-
Takeichi Yoshinori
Department of Mechanical Engineering, Toyohashi University of Technology
-
Nakamura Kosuke
Department Of Physics Faculty Of Science Tokyo University Of Education
-
Miyazima Tatuoki
Department Of Physics Faculty Of Science Tokyo University Of Education
-
Une Tsutomu
Department Of Physics Faculty Of Science Tokyo University Of Education
-
Nakamura Kosuke
Department Of Biofunctional Chemistry Graduate School Of Natural Science And Technology Okayama Univ
-
KOHMURA Toshitake
Department of Physics, Faculty of Science Tokyo University of Education
-
Kohmura Toshitake
Department Of Physics Faculty Of Science Tokyo University Of Education
-
NAKAMURA Kosuke
Department of Physics, Faculty of Science Tokyo University of Education
-
UNE Tsutomu
Department of Physics, Faculty of Science Tokyo University of Education
-
MIYAZIMA Tatuoki
Department of Physics, Faculty of Science Tokyo University of Education
関連論文
- Effects of Molybdenum Trioxide on the Tribological Properties of Aluminum Bronze under High Temperature Conditions
- Effect of Size of Carbon Fiber on the Wear of PTFE Composites and Aluminum Alloy Counter Face
- The Covariant Theory of Radiation Damping : (I)General Formalism
- Finite Range Distorted Wave Calculations on Reactions C^(p, n)N^, B^(p, n)C^ and Al^(n, p)Mg^
- Computational Studies on Plasma Generation and Erosion in a Rectangular Magnetron Sputtering System
- Molecular Cloning and Gene Expression Analysis of Tomato Endo-β-N-acetylglucosaminidase, an Endoglycosidase Involved in the Production of High-Mannose Type Free N-Glycans during Tomato Fruit Ripening
- Predominant Occurrence of Truncated Complex Type N-Glycans among Glycoproteins in Mature Red Tomato
- Changes in Structural Features of Free N-Glycan and Endoglycosidase Activity during Tomato Fruit Ripening
- Differential Kinetic Activities of Glycerol Kinase among African Trypanosome Species: Phylogenetic and Therapeutic Implications
- α-Mannosidase Involved in Turnover of Plant Complex Type N-Glycans in Tomato (Lycopersicum esculentum) Fruits
- Molecular characterization of plant acidic α-mannosidase, a member of glycosylhydrolase family 38, involved in the turnover of N-glycans during tomato fruit ripening
- Molecular identification and characterization of an acidic peptide : N-glycanase from tomato (Lycopersicum esculentum) fruits
- Emission of Light Fragments from Heavy Nuclei in High Energy Nuclear Reactions
- Local Gaussian Approximation in the Generator Coordinate Method
- S-Wave Neutron Resonance : 1/2^+ State of ^
- Generator Coordinate Method Applied to ^Ne
- Collective Hamiltonian in the Generator Coordinate Method with Local Gaussian Approximation
- Spin-Flip Scattering of Pions by Nuclei
- Forward Deuteron Emission in High Energy Proton-Nucleus Collision and Nuclear Correlations
- Nucleon Pairs Emitted by Negative Pion Capture and Charge-Dependent Nuclear Wave Functions in Light Nuclei
- Decays of Light Double Hypernuclei and the Four-Baryon Weak Interactions
- Dibaryon States and F/D Ratio
- Canonical Ensemble Formalism for Multiple Production
- Wave Functions in Hypernuclei and Nuclear Compressibility
- Charge Exchange Nuclear Reactions Induced by a Pion
- Pion-Nucleus Scattering from 120 MeV to 1200 MeV
- Trypanosome alternative oxidase, a potential therapeutic target for sleeping sickness, is conserved among Trypanosoma brucei subspecies
- Dynamical Effect of Nuclear Deformation in Elastic Scattering of Heavy Ion
- Mass Number Dependence of the Real Part of the Forward Pion-Nucleus Elastic Scattering Amplitude
- The Effect of Sandblasting of UHMWPE Substrate on the Wear Resistance of Hydrogen-Containing Carbon Coating