Parallelizable manifold

In mathematics, a differentiable manifold \scriptstyle M of dimension n is called parallelizable[1] if there exist smooth vector fields

\{V_1, \dots,V_n\}

on the manifold, such that at any point \scriptstyle p of \scriptstyle M the tangent vectors

\{V_1(p), \dots, V_n(p)\}

provide a basis of the tangent space at \scriptstyle p. Equivalently, the tangent bundle is a trivial bundle,[2] so that the associated principal bundle of linear frames has a section on \scriptstyle M.

A particular choice of such a basis of vector fields on \scriptstyle M is called a parallelization (or an absolute parallelism) of \scriptstyle M.

Examples

Remarks

See also

Notes

  1. Bishop, R.L.; Goldberg, S.I. (1968), Tensor Analysis on Manifolds, p. 160
  2. Milnor, J.W.; Stasheff, J.D. (1974), Characteristic Classes, p. 15

References

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