ISSN:
1432-0673
Quelle:
Springer Online Journal Archives 1860-2000
Thema:
Mathematik
,
Physik
Notizen:
Abstract We prove that the set D of vector fields on the configuration space B of a field whose 1-parameter groups locally associated are groups of fibre-preserving transformations of B that leave invariant that field in the sense of variational theory, is a Lie algebra with respect to ordinary addition, multiplication by real numbers and Lie brackets. We see that this Lie algebra structure can be carried over to the corresponding set ℐ of Noether invariants, which then becomes a Lie algebra in a natural way. Further, we define the “n-form of Poincaré-Cartan” of a field, and we use it to generalize the Lie algebras D and ℐ in a reasonable way. The algebras D and ℐ are subalgebras of the new Lie algebras D and ℐ′ introduced. A main result in this connection is the following: the differential dΘ of the n-form of Poincaré-Cartan Θ is −θ∧(dΩ+fοω), where (θ, dΩ+fοω) are the field equations on the vertical bundle B. The “symplectic manifold of solutions” associated with a field is introduced in a formal way and the former Lie algebras D, ℐ, D′, ℐ′ are interpreted on this manifold. In imitation of the case of analytical dynamics, the main results in this direction are: a) Every vector field of the Lie algebra D′ defines, in a canonical way, a vector field on the manifold of solutions such that its polar 1-form with respect to the symplectic metric ω 2 is the differential of its corresponding Noether invariant, and b) the Lie bracket [ω, ω′] of two Noether invariants ω, ω′ ∈ ℐ′ is the Noether invariant given by ω 2(D, D′), where D, D′ are the vector fields on the manifold of solutions defined, in the sense a), by two infinitesimal generators of ω, ω′, respectively. This will allow us to regard the Lie algebra ℐ′ as the analogous object in field theory to the Poisson algebra of analytic dynamics. We apply the general formalism to the relativistic theory of non-linear scalar fields, and we compare our results with the formalism developed by I. Segal for this case.
Materialart:
Digitale Medien
URL:
http://dx.doi.org/10.1007/BF00252774
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