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Schouten–Nijenhuis bracket

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In differential geometry, the Schouten–Nijenhuis bracket, also known as the Schouten bracket, is a type of graded Lie bracket defined on multivector fields on a smooth manifold extending the Lie bracket of vector fields.

There are two different versions, both rather confusingly called by the same name. The most common version is defined on alternating multivector fields and makes them into a Gerstenhaber algebra, but there is also another version defined on symmetric multivector fields, which is more or less the same as the Poisson bracket on the cotangent bundle. It was invented by Jan Arnoldus Schouten (1940, 1953) and its properties were investigated by his student Albert Nijenhuis (1955). It is related to but not the same as the Nijenhuis–Richardson bracket and the Frölicher–Nijenhuis bracket.

Definition and properties

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An alternating multivector field is a section of the exterior algebra over the tangent bundle of a manifold . The alternating multivector fields form a graded supercommutative ring with the product of and written as (some authors use ). This is dual to the usual algebra of differential forms by the pairing on homogeneous elements:

The degree of a multivector in is defined to be .

The skew symmetric Schouten–Nijenhuis bracket is the unique extension of the Lie bracket of vector fields to a graded bracket on the space of alternating multivector fields that makes the alternating multivector fields into a Gerstenhaber algebra. It is given in terms of the Lie bracket of vector fields by

for vector fields , and

for vector fields and smooth function , where is the common interior product operator. It has the following properties.

  • (the product is associative);
  • (the product is (super) commutative);
  • (the product has degree 0);
  • (the Schouten–Nijenhuis bracket has degree −1);
  • (Poisson identity);
  • (antisymmetry of Schouten–Nijenhuis bracket);
  • (Jacobi identity for Schouten–Nijenhuis bracket);
  • If and are functions (multivectors homogeneous of degree 0), then ;
  • If is a vector field, then is the usual Lie derivative of the multivector field along , and in particular if and are vector fields then the Schouten–Nijenhuis bracket is the usual Lie bracket of vector fields.

The Schouten–Nijenhuis bracket makes the multivector fields into a Lie superalgebra if the grading is changed to the one of opposite parity (so that the even and odd subspaces are switched), though with this new grading it is no longer a supercommutative ring. Accordingly, the Jacobi identity may also be expressed in the symmetrical form

Generalizations

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There is a common generalization of the Schouten–Nijenhuis bracket for alternating multivector fields and the Frölicher–Nijenhuis bracket due to Vinogradov (1990).

A version of the Schouten–Nijenhuis bracket can also be defined for symmetric multivector fields in a similar way. The symmetric multivector fields can be identified with functions on the cotangent space of that are polynomial in the fiber, and under this identification the symmetric Schouten–Nijenhuis bracket corresponds to the Poisson bracket of functions on the symplectic manifold . There is a common generalization of the Schouten–Nijenhuis bracket for symmetric multivector fields and the Frölicher–Nijenhuis bracket due to Dubois-Violette and Peter W. Michor (1995).

References

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  • Dubois-Violette, Michel; Michor, Peter W. (1995). "A common generalization of the Frölicher–Nijenhuis bracket and the Schouten bracket for symmetric multi vector fields". Indag. Math. 6 (1): 51–66. arXiv:alg-geom/9401006. doi:10.1016/0019-3577(95)98200-u.
  • Marle, Charles-Michel (1997). "The Schouten-Nijenhuis bracket and interior products" (PDF). Journal of Geometry and Physics. 23 (3–4): 350–359. Bibcode:1997JGP....23..350M. CiteSeerX 10.1.1.27.5358. doi:10.1016/s0393-0440(97)80009-5.
  • Nijenhuis, A. (1955). "Jacobi-type identities for bilinear differential concomitants of certain tensor fields I". Indagationes Mathematicae. 17: 390–403. doi:10.1016/S1385-7258(55)50054-0. hdl:10338.dmlcz/102420.
  • Schouten, J. A. (1940). "Über Differentialkonkomitanten zweier kontravarianten Grössen". Indag. Math. 2: 449–452.
  • Schouten, J. A. (1953). "On the differential operators of the first order in tensor calculus". In Cremonese (ed.). Convegno Int. Geom. Diff. Italia. pp. 1–7.
  • Vinogradov, A. M. (1990). "Unification of Schouten–Nijenhuis and Frölicher–Nijenhuis brackets, cohomology and super differential operators". Sov. Math. Zametki. 47.
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