Spinor Model of Baryons and Mesons
スポンサーリンク
概要
- 論文の詳細を見る
A unified model of baryons and mesons is presented based on the hypothesis that a strongly interacting particle originally has the internal configuration represented by three "triads", where a triad is by definition a light-like vector together with a rotational orientation around it, and the existence of three triads is related to the fact that our Minkowski space allows three independent light-like vectors. The assumed configuration implies twelve (real) independent internal coordinates. The SU(6) symmetry is contained there in conformity with relativity, which requires kinematical couplings to exist between internal and external motions. Characteristic to the model is, besides the SU(6), the existence of generators of a three-dimensional Lorentz group, which represents the extension, dilatation and vibration of the structure. These quantities play particularly important roles of controlling the IR (irreducible representation) of SU(6) and determining the mass operator. Eigenstates of the internal motion are first classified into "shells" by a pair of oscillator quantum numbers, and then each shell is subgrouped into super-multiplets corresponding to IR's of SU(6). The first mesonic shell has odd parity and contains 36 states which are divided into an SU(6) singlet (identified as X^0(958) meson) and an SU(6) 35-plet. The predictions about spin, parity and charge-conjugation parity just agree with observations. In the model the IR's 15__- and 20__- of SU(6) do not occur in the shells of lower excitation.
- 理論物理学刊行会の論文
著者
関連論文
- A Unified Wave Equation for Elementary Particles
- Relativistic Elementary Particle States of an Internally Structured Model
- Constraints, Center-of-Masses and Quantization for Relativistically Structured Systems : The Bilocal Case
- Relativistic Mechanics of Confined Particles as Extended Model of Hadrons : The Bilocal Case
- Internal Polarization and Relativistic Elementary-Particle Algebra
- Relativistic Bound State under the Hooke-Type Action-at-a-Distance
- General-Covariant Approach to Relativistic String Theory
- Spinor Model of Baryons and Mesons
- Group of Relativistic Internal Motion, Its Unitary Representation and Wave Equation
- Relativistic Mechanics of Interacting Particles and Multi-Local Theory. II: Trilocal and More General Cases
- Slopes of Meson Trajectories
- Infinite-Component Wave Equation with Relativistic Rotator Mass Spectrum
- Relativistic Mechanics of Bilocal and Trilocal Structures
- Covariant Wave Equations of Two Spinning Particles Harmonically Bound
- Relativistic Mechanics of Interacting Particles and Multi-Local Theory. I : The Bilocal Case
- Multilocal Theory and Relativistic String
- Bilocal Wave Equation for Baryons Lying on Linear Trajectories and Its Extension to a Linear Chain Model
- Relativistic Dynamics of classical particle with Spin in Electromagnetic Field
- Theory of Relativistic Top and Electromagnetic Interaction
- Remarks on the Method of Infinite-Component Wave Equation for Relativistic Model with Internal Structure
- Global Variables of Relativistic Dynamical System and Massless States
- De Sitter Algebra Associated with the Poincare Group and Center-of-Inertia
- Principal Quantum Number for Mesons and Selection Rules
- Uniformity of Squared-Mass Formulas for Strongly Interacting Particles
- Internal Structure of Hadron Underlying the Veneziano Amplitude
- A Quadrille Model for New Heavy Mesons
- Relativistic Mechanics of Two Interacting Particles and Bilocal Theory
- Dynamical Group of Relativistic Oscillator and Linear Meson Trajectories
- Detailed Wave Equation and Dual Amplitude : Relativistic Quantum Dynamics of String Model of Hadrons
- Detailed Wave Equation and Dual Amplitude : Relativistic Quantum Dynamics of String Model of Hadrons
- Theory of Relativistic String and Super-Wave Equation. I
- Space-Time Model of Elementary Particles and Unitary Symmetry. I : General Foundation and Symmetry
- Multilocal Models and String Theory
- Remarks on Mass Spectrum of Decuplet Baryons. I
- Principal Quantum Number for Mesons and Mass Systematics
- Unitary Spin as Produced from Internal Spin
- New Formalism for Simple Relativistic Oscillator Model and Electromagnetic Interaction
- Constituent Mass, Free-Limit Condition, and Quantization for Trilocal Theory
- Lagrangian Theory of Relativistic Rotator