The Kinematical Structure of Lightlike Wave Functions : The Case of Mesons
スポンサーリンク
概要
- 論文の詳細を見る
Subhadronic wave functions of hadrons in the lightlike quantization are related to Bethe-Salpeter amplitudes. Their kinematical decomposition is explicitly performed in the lowest sector of any meson. Another method of constructing the wave functions is given by the use of two-component lightlike spinors. The nonrelativistic limit of the wave functions is discussed in order to see how the parton picture for hadrons reduces to the conventional quark-model picture in limit of infinite light velocity.
- 理論物理学刊行会の論文
- 1976-05-25
著者
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Ida Masakuni
Research Institute For Fundamental Physics Kyoto University
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Yabuki Haruichi
Research Institute For Mathematical Sciences Kyoto University
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YABUKI Haruichi
Research Institute for Mathematical Sciences, Kyoto University
関連論文
- Baryon Resonances and Lightlike Chiral Algebra
- The Vacuum Structure of Quantum Chromodynamics
- Classification of Baryons in an SU(3) Regge Scheme
- The Kinematical Structure of Lightlike Wave Functions. II : The Case of Baryons
- Dynamical Properties of the Vacuum in Quantum Chromodynamics
- The Kinematical Structure of Lightlike Wave Functions : The Case of Mesons
- Dynamical Quark Mass Generation and the Mean Instanton Density
- On the Proposition Given by T. T. Wu concerning the Exponential Decrease of the High-Energy Large-Angle Differential Cross Section
- Wave Function and Wave Equation on a Null-Plane
- Dualities in Baryon-Antibaryon Scattering
- The Baryon Spectrum and Reflection Partners
- Hadron Resonances and Lightlike Chiral Algebra
- A Lightlike Formulation of the Quark Model
- Relativistic Motion of Massive Quarks Joined by a Massless String
- Quantization of Quark Fields on a Lightlike Plane
- A Left-Right Symmetric Gauge Model as an Extended Weinberg-Salam Theory
- A Dual Picture for Meson Resonances in Terms of Two Limiting Symmetries