U(1) Lattice Gauge Theory, Four Fermi Coupling and Migdal-Kadanoff Renormalization Group : Particles and Fields
スポンサーリンク
概要
- 論文の詳細を見る
U(1) lattice gauge theory in 3+1 dimensions with staggered fermions is studied by Migdal-Kadanoff renormalization group method. Chiral order parameter is investigated. It is shown that four fermi coupling term is induced by renormalization group transformation of fermion self-energy type correction.
- 理論物理学刊行会の論文
- 1989-06-25
著者
-
Imachi M
Department Of Physics Yamagata University
-
Imachi Masahiro
Department Of Physics Kyushu University
-
IMACHI Masahiro
Departmnet of Physics,Kyushu University
-
IMACHI Masahiro
Department of Physics, Kyusyu University
関連論文
- The Sign Problem and MEM in Lattice Field Theory with the θ Term(Particles and Fields)
- Vortex String Picture and Large p_T Reactions
- The Lowest Subprocess Model of Large p_T Hadron Productions
- Unique Trajectory Method in Migdal Renormalization Group Approach and SU(2) Lattice Gauge Theory
- Unique Trajectory Method in Migdal Renormalization Group Approach and Crossover Phenomena
- The Migdal Recursion Equation as a Probe for Crossover Points : Lattice Gauge Theory on Discrete Groups
- The θ-Term, CP^ Model and the Inversion Approach in the Imaginary θ Method(Particles and Fields)
- Maximum Entropy Method Approach to the θ Term
- CP^ Models with a θ Term and Fixed Point Action
- Two-Dimensional CP^2 Model with θ-Term and Topological Charge Distributions
- Renormalization Group Analysis of U(2) Gauge Theory with θ-Term in 2 Dimensions : Particles and Fields
- Character Expansion, Zeroes of Partition Function and θ-Term in U(1) Gauge Theory : Particles and Fields
- Real Space Renormalization Group Analysis of U(l)-Gauge Theory with θ Term in 2 Dimensions
- SU(3) Lattice Gauge Theory in Migdal Renormalization Group Approach
- Complex Wave Function, Chiral Spin Order Parameter and Phase Problem : Condensed Matter and Statistical Physics
- Large p_T Hadron Productions and String Junction Model
- Z(N) String Junction Model and Spectrum Energy Density of String
- Z(N) Strings and Hadron Structure
- Regge Pole Exchange and the Oscillatory Behavior in K^+P Scattering
- On the Degeneracy of Regge Trajectories Imposed by the Veneziano-Type Amplitude
- Hair Pin Line Rule and Baryonium Decay
- String-Junction Model and Width of Baryonium
- Resonance Correlation and Zeros of Scattering Amplitudes
- U(6) Baryon Spectrum and U(6) Breaking
- Topological Charge Distribution and CP Model with θTerm
- U(1) Lattice Gauge Theory, Four Fermi Coupling and Migdal-Kadanoff Renormalization Group : Particles and Fields
- Finite Temperature SU(2) Lattice Gauge Theory in Migdal Renormalization Group Approach : Particles and Fields
- Constituent Rearrangement Model and Hadron Reactions
- Hadronic Reactions and the Rearrangement of Sakatons
- Rearrangement of Sakatons and High Energy Two-Body Scattering
- High Energy Inelastic Scattering by Rearrangemement of Sakatons
- High Energy Forward Scattering and the Urbaryon Model
- Mass and Selection Rule of Baryonium
- String Junction Model, Cluster Hypothesis, Penta-Quark Baryon and Tetra-Quark Meson(Nuclear Physics)
- The 1/N Expansion and Quark-Junction Systems
- On the Role of String-Junction in Hadron Reactions
- Hadron Structure with String-Junction and Large Momentum Transfer Phenomena
- Structure and Interaction of Hadrons with Orientable String
- Orientable Hadron Structure
- Meson-Baryon Backward Scattering and Resonance Correlation
- A New Interaction Length and Independent Urbaryon Model
- Triality Constraint on Urbaryon Rearrangement Diagram and Urbaryons in Correlated Mode
- Systematic Structure in Hadronic Two-Body Scattering and Resonance Correlation : Hadron Reactions and Urbaryon Rearrangement. III
- Impact Parameter Representation of Resonance Correlation : Hadron Reactions and Urbaryon Rearrangement. II
- Proton-Proton Scattering and Urbaryon Rearrangement
- Hadron Reactions and Urbaryon Rearrangement. I : Effective Resonance Structure
- Dip-Bump Structure of Cross Section and Urbaryon Rearrangement. II
- Exotic Resonances, Urbaryon Rearrangement and Hadron Structure
- Rearrangement of Urbaryon Lines and Forces between Composite Hadrons
- The Backward Peak in Pion-Nucleon Scattering and Composite Structure of the Pion
- Dip-Bump Structure of Cross Section and Urbaryon Rearrangement
- Finite Energy Sum Rules and Duality of Sakaton Rearrangement Diagrams
- Quarks as Quasi-Particle and the Cluster Model of Hadrons
- Breaking of Line Reverse Relation and Exotics
- How Can Several Baryoniums Be Narrow? : Mass Formula and Selection Rule of Unconventional Hadrons
- Extension of the OZI and FWR Rules
- Transition Feature between Large and Small Momentum Transfer Regions
- On the Real Part of Resonance Correlation
- The Lowest Subprocess Model of Large pT Hadron Productions