Application of a New Scaling Rule to Neutrino Nucleon Reactions
スポンサーリンク
概要
- 論文の詳細を見る
The energy dependences of total cross sections, y-distributions and the average q^2 in charged current neutrino reactions are analysed in a new scaling rule proposed by Muta. The comparisons with the existing data manifest that the new scaling consistent with data if the parameter is appropriately taken.
- 理論物理学刊行会の論文
- 1978-06-25
著者
-
Okumura Yoshitaka
Department Of Applied Physics Chubu Institute Of Technology
-
Okumura Michiko
Department Of Physics Kyoto University
-
OKUMURA Yoshitaka
Department of Applied Physics, Chubu Institute of Technology Kasugai
-
OKUMURA Yoshitaka
Physics Laboratory, University of Alberta
-
OKUMURA Yoshitaka
Department of Applied Physics, Chubu University
-
OKUMURA Yoshitaka
Department of Physics, Boston University:The Department of Natural Sciences, Chubu University
関連論文
- Sogami's Generalized Covariant Derivative and Non-Commutative Differential Geometry : Particles and Fields
- Weinberg-Salam Theory Based on a Z_2-Graded Algebra : Particles and Fields
- Lorentz Invariance and the Unitarity Problem in Non-Commutative Field Theory
- Lorentz-Invariant Non-Commutative Space-Time Based on DFR Algebra
- Connes' Gauge Theory and Weinberg-Salam Model of Leptons on Noncommutative Space-Time
- Lagrangian Formulation of NCG Gauge Theory : Particles and Fields
- Gauge Theories Coupled to Fermions in Generation : Particles and Fields
- Lagrangian Formulation of NCG Gauge Theory. II
- Lorentz Invariance and the Unitarity Problem in Non-Commutative Field Theory(Particles and Fields)
- Phenomenology of Conventional Field Theory in Neutrino-Nucleon Reactions
- Standard Model in Differential Geometry on Discrete Space M_4 × Z_3 : Particles and Fields
- Two Higgs Doublet Model in a Noncommutative Geometry on the Discrete Space M_4×Z_4 : Particles and Fields
- Non-Commutative Differential Geometry and Standard Model
- Neutrino-Nucleon Scatterings under Scaling Violation
- Left-Right Symmetric Gauge Theory in Non-Commutative Geometry on M_4×Z_N : Particles and Fields
- Application of a New Scaling Rule to Neutrino Nucleon Reactions
- New Incorporation of the Strong Interaction in NCG and Standard Model
- SO(10) Grand Unified Theory in Non-Commutative Differential Geometry on the Discrete Space M_4×Z_N : Particles and Fields
- Renormalization Group Analysis of the Higgs Boson Mass in a Noncommutative Geometry : Particles and Fields
- Modified Reconstruction of Standard Model in Non-Commutative Differential Geometry : Particles and Fields
- Possible Explanation of Data for R= σ_L/σ_T
- Scaling Violation and Deep Inelastic Contribution to p-n Mass Difference
- New Method in Evaluating the Q^2 Evolution of Moment Integral in Neutrino-Nucleon Reaction
- Hadron Scattering at Extremely High Energies in the Parton Model
- BRST Symmetry and the Scale Transformation of Ghost Fields in Gauge Theory on NC Spacetime(Particles and Fields)
- Non-Commutative Differential Geometry on Discrete Space M_4×Z_N and Gauge Theory : Particles and fields
- Extrapolation of the Structure Function νW_2 from the Deep Inelastic Region down to the Resonance Region in e-p Scattering
- Sum Rule for e-p Scattering
- Note on Two-Higgs-Doublets Model in Non-Commutative Differential Geometry
- Energy Momentum Sum Rule beyond the Leading Order in QCD
- Unified Treatment of Gauge and Higgs Fields in Non-Commutative Differential Geometry
- Weinberg-Salam Theory in Non-Commutative Geometry : Particles and Fields
- Nachtmann Moments of F_2^(x, Q^2) and Energy Momentum Sum Rule
- Divergence in the Cottingham Formula
- New Approach in Application of Field Theories to Lepton Hadron Scattering
- Gauge Theory on Discrete Space M_4×Z_N and SU(5) GUT in Non-Commutative Geometry : Particles and Fields
- Deep Inelastic Contribution to Nucleon Mass Difference
- Phenomenological Determinations of Quark and Gluon Distributions inside the Nucleon in Quantum Chromodynamics
- Gauge Theories Coupled to Fermions in Generation : Particles and Fields