Linear Approximation for the Massless Lorentz Gauge Field

スポンサーリンク

概要

• 論文の詳細を見る

• We study the massless Lorentz gauge field in the linear approximation. We find that the axial-vector component of the Lorentz gauge field, which is the only component interacting with the Dirac field directly, can propagate as a massless field. In this case no other component appears as an independent field. The equation of this massless field is similar to the Maxwell equation.

• 理論物理学刊行会の論文
• 1983-04-25

著者

• Nakano T

  Department Of Physics Kyushu University:(present Address)sasaguri Town Office

• Tamura Yoshinobu

  Theory And Computer Simulation Center National Institute For Fusion Science

• MIYAMOTO Shikao

  Nara Technical College

• NAKANO Tadao

  Department of Physics, Osaka City University

• OHTANI Teruya

  Kansai University of foreign Studies

• TAMURA Yoshinobu

  Taisho High School

• Nakano Tadao

  Department Of Physics Osaka City University

• Ohtani T

  Kansai Univ. Foreign Studies Hirakata Jpn

• TAMURA Yuichi

  Theory and Computer Simulation Center, National Institute for Fusion Science

• NAKANO Takuya

  Department of Physics, Kyushu University:(Present Address)Sasaguri Town Office

関連論文

• Relativistic Hartree-Bogoliubov Calculation of the Specific Heat for the Inner Crust of Neutron Stars(Nuclear Physics)
• Analysis of Intermittent Phenomena for High Energy Multiparticle Production Processes : Particles and Fields
• Two Types of N-Body Bound State Solutions of the Dirac Particles with the δ Function Potential in 1+1 Dimensional Space-Time
• A Solvable Relativistic Four-Body Composite System in 1+1 Dimensions and New Intrinsic Couplings between Its Structure and Overall Translational Motion : Particles and Fields
• Application of the Mutual Information to the Zn Gauge Model
• Virtual Reality System for Comprehending Complex Phenomena
• Visualization of Vector Field by Virtual Reality
• Scientific Visualization in Physics Research by CompleXcope CAVE System
• Level Shift of Hyperfine Structure Due to the Lorentz Gauge Field
• Massless Lorentz Gauge Field Consistent with Einstein's Gravitation Theory : The Case α+2a/3=β-2a/3=γ+3a/2=0 : Astrophysics and Relativity
• Linear Approximation for the Massless Lorentz Gauge Field
• Linear Approximation for the Lorentz Gauge Field
• Chapter 6 Effects of Magnetic Fields on Star Formation : Part II Formation Processes of Protostars : Origin of the Solar System
• Fundamental Processes in Star Formation
• Possible Observation of the Skew-Symmetric Tensor Gauge Field
• Method for Solving the Nambu-Salpeter-Bethe Equation and Its Application to Nucleon-Nucleon Scattering in the ^3P_1 State
• On the Strong Interaction
• Chapter 13 Ionization State and Magnetic Fields in the Solar Nebula : Part IV Physical Processes in the Solar Nebula : Origin of the Solar System
• Interaction of Massless Dirac Field with a Poincare Gauge Field : Particles and Fields
• Charge Independence for V-particles
• Extended Translation Invariance and Associated Gauge Fields
• The Catalysis of Nuclear Fusion Reactions by μ^--Mesons
• Scientific Visualization in Physics Research by CompleXcope CAVE System
• Lorentz Gauge Field and Spin Angular-Momentum
• A Relativistic Field Theory of an Extended Particle, I
• Quantum Field Theory in terms of Euclidean Parameters

もっと見る 閉じる

スポンサーリンク