Graded Poincare Algebra, Spin-Vector Gauge Fields and Gauge Theory of Gravity : Particles and Fields
スポンサーリンク
概要
- 論文の詳細を見る
A gauge theory of gravity based on the complexified internal 4-dimensional graded Poincare group GP^4_<cI> is investigated. The algebra of GP^4_<cI> is constructed from the differential operators in spin vector space and resembles the super Poincare algebra. Without Grassmann coordinates, anticommuting spin vector gauge fields φ_a^A (A = 1, 2) are introduced, as well as the soldering forms σ_a^<AB'>. Using the spin vector gauge fields, another Lagrangian density, which is the spinor partner of Jacobson and Smolin, is proposed.
- 理論物理学刊行会の論文
- 1997-11-25
著者
-
Kikukawa Hiroyuki
Department Of Engineering Oceanography Faculty Of Fisheries Kagoshima University
-
KIKUKAWA Hiroyuki
Department of Physics, Faculty of Fisheries, Kagoshima University
-
KIKUKAWA Hiroyuki
Department of Environmental and Information Sciences,Faculty of Fisheries Kagoshima University
関連論文
- Numerical Study of Tidal Water Mass Excahnge in an Inland Sea with Archipelago
- Modified Maurer-Cartan Condition and Fiber Bundle Structure of the Gauge Theory of Gravity : Particles and Fields
- Internal P^4_ Group in Spin Space and Gauge Theory of Gravity : Particles and Fields
- Internal Translation Group, Extended Cartan-Maurer Condition and Soldering Forms : Particles and Fields
- Bagged Hadronic Matter
- Phase Transition of Second Kind in Hadronic Matter
- Inclusive Electroproduction of Forward Protons in a Fireball Model
- Graded Poincare Algebra, Spin-Vector Gauge Fields and Gauge Theory of Gravity : Particles and Fields
- Geometric Formulation of BRS and BRS* Transformations in T_4 Theory : Particles and Fields
- Geometric Description of BRS Transformation for the Fields in P_4 Theory
- Geometric Description of BRS* Transformations for the Fields in P_4 Theory : Particles and Fields
- Hadron-Quark Phase Transition and Statistical Quark Bag Model
- Statistical Quark Bag Model and Light Hadrons
- A Scaling Function of e^+e^- Annihilation in Multiperipheral Fireball Model
- A Multi-Peripheral Fireball Model of e^+e^- Annihilation
- Geometric Approach to the BRS^* Transformation in Superspace-Poincare Theory : Particles and Fields