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Lie algebras of conservation laws of variational partial differential equations (1505.04258v2)

Published 16 May 2015 in math-ph and math.MP

Abstract: We establish a version of the first Noether Theorem, according to which the (equivalence classes of) conserved quantities of given Euler-Lagrange equations in several independent variables are in one-to-one correspondence with the (equivalence classes of) vector fields satisfying an appropriate pair of geometric conditions, namely: (a) they preserve the class of vector fields tangent to holonomic submanifolds of a jet space; (b) they leave invariant the action, from which the Euler-Lagrange equations are derived, modulo terms identically vanishing along holonomic submanifolds. Such correspondence between symmetries and conservation laws is built on an explicit linear map f_A from the vector fields satisfying (a) and (b) into the conserved differential operators, and not into their divergences as it occurs in other proofs of Noether Theorem. This map f_A is not new: it is the map determined by contracting symmetries with a form of Poincare'-Cartan type A and it is essentially the same considered for instance in a paper by Kupershmidt. There it was shown that f_A determines a bijection between symmetries and conservation laws in a special form. Here we show that, if appropriate regularity assumptions are satisfied, any conservation law is equivalent to one that belongs to the image of f_A, proving that the corresponding induced map F_A between equivalence classes of symmetries and equivalence classes of conservation laws is actually a bijection. All results are given coordinate-free formulations and rely just on basic differential geometric properties of finite-dimensional manifolds.

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