The Kinematical Structure of Lightlike Wave Functions. II : The Case of Baryons
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概要
- 論文の詳細を見る
The kinematical decomposition of subhadronic wave functions of baryons on a lightlike plane is performed in their lowest (qqq) sector. Crucial here is the consideration of the permutation symmetry character of each decomposed part. In a final form of our decomposition there appear only those quantities which are definable on the lightlike plane. The idea of degree expansion is proposed to select important components. The ground baryon octet has only one component of degree zero, which survives in the SU(6) limit, and five with degree one.
- 理論物理学刊行会の論文
- 1976-07-25
著者
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IDA Masakuni
Research Institute for Fundamental Physics, Kyoto University
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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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- 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
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- 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