Frölicher–Nijenhuis bracket

In mathematics, the Frölicher–Nijenhuis bracket is an extension of the Lie bracket of vector fields to vector-valued differential forms on a differentiable manifold.

It is useful in the study of connections, notably the Ehresmann connection, as well as in the more general study of projections in the tangent bundle. It was introduced by Alfred Frölicher and Albert Nijenhuis (1956) and is related to the work of Schouten (1940).

It is related to but not the same as the Nijenhuis–Richardson bracket and the Schouten–Nijenhuis bracket.

Definition

Let Ω*(M) be the sheaf of exterior algebras of differential forms on a smooth manifold M. This is a graded algebra in which forms are graded by degree:

A graded derivation of degree ℓ is a mapping

which is linear with respect to constants and satisfies

Thus, in particular, the interior product with a vector defines a graded derivation of degree ℓ = 1, whereas the exterior derivative is a graded derivation of degree ℓ = 1.

The vector space of all derivations of degree ℓ is denoted by DerΩ*(M). The direct sum of these spaces is a graded vector space whose homogeneous components consist of all graded derivations of a given degree; it is denoted

This forms a graded Lie superalgebra under the anticommutator of derivations defined on homogeneous derivations D1 and D2 of degrees d1 and d2, respectively, by

Any vector-valued differential form K in Ωk(M, TM) with values in the tangent bundle of M defines a graded derivation of degree k  1, denoted by iK, and called the insertion operator. For ω  Ω(M),

The Nijenhuis–Lie derivative along K  Ωk(M, TM) is defined by

where d is the exterior derivative and iK is the insertion operator.

The Frölicher–Nijenhuis bracket is defined to be the unique vector-valued differential form

such that

Hence,

If k = 0, so that K  Ω0(M, TM) is a vector field, the usual homotopy formula for the Lie derivative is recovered

If k==1, so that K,L  Ω1(M, TM), one has for any vector fields X and Y

If k=0 and =1, so that K=Z Ω0(M, TM) is a vector field and L  Ω1(M, TM), one has for any vector field X

An explicit formula for the Frölicher–Nijenhuis bracket of and (for forms φ and ψ and vector fields X and Y) is given by

Derivations of the ring of forms

Every derivation of Ω*(M) can be written as

for unique elements K and L of Ω*(M, TM). The Lie bracket of these derivations is given as follows.

  • The derivations of the form form the Lie superalgebra of all derivations commuting with d. The bracket is given by
where the bracket on the right is the Frölicher–Nijenhuis bracket. In particular the Frölicher–Nijenhuis bracket defines a graded Lie algebra structure on , which extends the Lie bracket of vector fields.
  • The derivations of the form form the Lie superalgebra of all derivations vanishing on functions Ω0(M). The bracket is given by
where the bracket on the right is the Nijenhuis–Richardson bracket.
  • The bracket of derivations of different types is given by
for K in Ωk(M, TM), L in Ωl+1(M, TM).

Applications

The Nijenhuis tensor of an almost complex structure J, is the Frölicher–Nijenhuis bracket of J with itself. An almost complex structure is a complex structure if and only if the Nijenhuis tensor is zero.

With the Frölicher–Nijenhuis bracket it is possible to define the curvature and cocurvature of a vector-valued 1-form which is a projection. This generalizes the concept of the curvature of a connection.

There is a common generalization of the Schouten–Nijenhuis bracket and the Frölicher–Nijenhuis bracket; for details see the article on the Schouten–Nijenhuis bracket.

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References

  • Frölicher, A.; Nijenhuis, A. (1956), "Theory of vector valued differential forms. Part I.", Indagationes Mathematicae, 18: 338–360.
  • Frölicher, A.; Nijenhuis, A. (1960), "Invariance of vector form operations under mappings", Communicationes Mathematicae Helveticae, 34: 227–248, doi:10.1007/bf02565938.
  • P. W. Michor (2001) [1994], "Frölicher–Nijenhuis bracket", Encyclopedia of Mathematics, EMS Press
  • Schouten, J. A. (1940), "Über Differentialkonkomitanten zweier kontravarianten Grössen", Indagationes Mathematicae, 2: 449–452.
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