Atomic Mass Formula with Constant Shell Terms
スポンサーリンク
概要
- 論文の詳細を見る
An atomic mass formula is constructed in the form of a sum of gross terms and empirical constant shell terms. The shell parameter values are determined by a new statistical method, whose essential point is to take account of the intrinsic error of the mass formula. This method is explained in some detail, and the properties of the resulting formula are discussed.
- 理論物理学刊行会の論文
- 1981-04-25
著者
-
Uno Masahiro
Science And Engineering Research Laboratory Waseda University
-
YAMADA Masami
Science and Engineering Research Laboratory, Waseda University
-
Yamada Masami
Science And Engineering Research Laboratory Waseda University
-
UNO Masahiro
Science and Engineering Research Laboratory, Waseda University
-
YAMADA Masami
Advancde Research Institute for Science and Engineering, Wasede University
関連論文
- A patient who survived total colonic type ulcerative colitis complicated by toxic megacolon, disseminated intravascular coagulation, methicillin-resistant Staphylococcus aureus infection and bilateral femoral phlebothrombosis
- Long-term Effects of Water-soluble Corn Bran Hemicellulose on Glucose Tolerance in Obese and Non-obese Patients : Improved Insulin Sensitivity and Glucose Metabolism in Obese Subjects
- Multiple Endocrine Neoplasia Type 1 Accompanied by Duodenal Carcinoid Tumors and Hypergastrinemia: A Familial Case
- Approximate Energy Expression for Spin-Polarized Fermi Liquids
- Further Study of the Nuclear Shape in High-Density Matter
- Atomic Mass Formula with Empirical Shell Terms
- Cluster Variation Method for Finite-Temperature Systems. II : Symmetric Nuclear Matter with a Central Potential
- Shape of Nuclei in the Crust of Neutron Star : Nuclear Physics
- Gross Theory of β-Decay and Its Application to the Fermi Matrix Element
- β-spectra of Fe^, Rb^, Tc^, Cs^and the Coupling Constants of Scalar and Tensor Interactions in β-decay
- Nuclear Structure Studied from Weak and Related Processes
- Electron Spin Density and Internal Conversion Process
- Atomic Mass Formula with Constant Shell Terms
- Finite-Nuclear-Size Effect on the Gross Theory of First-Forbidden β-Decay
- Instability of Spheroidal Super-Heavy Nuclei
- Gross Theory of Nuclear β-Decay
- Variational Study of Asymmetric Nuclear Matter and a New Term in the Mass Formula(Nuclear Physics)
- A Variational Method for Infinite Fermion Systems with Central Forces : Nuclear Physics
- Refinement of the Energy Expression for Infinite Fermion Systems with Central Forces : Nuclear Physics
- Necessary Conditions on Spin-Isospin-Dependent Liquid Structure Functions of Fermion Systems : Nuclear Physics
- Theory of Superdense Stars
- Difference between the Neutron and Proton Distributions in Nuclei
- Nuclear Mass Formula on a Compressible Model
- Mass Formula for Compressible Elastic Nuclei : Nuclear Physics
- Effect of Nuclear Surface Diffuseness on the Isoscalar Giant Monopole Resonance : Nuclear Physics
- Spin Condition in the Cluster Variation Method and Its Application to the Neutron Matter
- Gross Theory of β-Decay and Shell Effects
- Improvement of the Gross Theory of β-Decay.I : Formalism : Nuclear Physics
- Improvement of the Gross Theory of β-Decay. II : One-Particle Strength Function : Nuclear Physics
- Cluster Variation Method for Finite-Temperature Systems.I : Formalism for Fermion Systems : Condensed Matter and Statistical Physics
- Momentum Distribution Condition in the Cluster Variation Method : Condensed Matter and Statistical Physics
- Nuclear Ground-State Energies
- Screening Effect on Electron Captures at High Densities
- Nuclidic Mass Formula on a Spherical Basis with an Improved Even-Odd Term(Nuclear Physics)
- Electron Capture in Highly Evolved Stars
- Variational Method for Infinite Nuclear Matter with Noncentral Forces : Nuclear Physics
- β-Decay of Nuclear Excited States