Physics – High Energy Physics – High Energy Physics - Theory
Scientific paper
2002-10-22
Physics
High Energy Physics
High Energy Physics - Theory
50 pages, LaTeX, no figures, title changed, introduction updated, section with zero-locus reduction problems and methods of ne
Scientific paper
The rules to construct Lagrangian formulation for $\theta$-superfield theory of fields ($\theta$-STF) are introduced and considered on the whole in the framework of new superfield quantization method for general gauge theories. Algebraic, group-theoretic and analytic description aspects for supervariables over (Grassmann) algebras containing anticommuting generating element $\theta$ and interpreted further in particular as an "odd" time are examined. Superfunction $S_{L}(\theta)$, its global symmetries are defined on the extended space $T_{odd}{\cal M}_{cl} \times \{\theta\}$ parameterized by superfields ${\cal A}^{\imath}(\theta), \frac{d{{\cal A}}^{\imath}(\theta)}{d\theta \phantom{xxx}}, \theta$. Extremality properties of superfunctional $Z[{\cal A}]=\int d\theta S_{L}(\theta)$ and ones of corresponding Euler-Lagrange equations are analyzed. The direct and inverse problems of zero locus reduction for extended (anti)symplectic manifolds over ${\cal M}_{min}$ = $\{({\cal A}^{\imath}(\theta), C^{\alpha}(\theta))\}$, with (odd) even brackets, corresponding to initial $\theta$-superfield models are employed to construct iteratively the new interconnected models both embedded into manifolds above with reduced brackets and enlarging them with continued ones. Component (on $\theta$) formulation for $\theta$-STF variables and operations is produced providing the connection with standard gauge field theory. Realization of $\theta$-STF constructions is demonstrated on models of scalar, spinor, vector superfields which are used to formulate the $\theta$-superfield model with abelian two-parametric gauge supergroup.
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