Atiyah algebroid

In mathematics, the Atiyah algebroid, or Atiyah sequence, of a principal G-bundle P over a manifold M, where G is a Lie group, is the Lie algebroid of the gauge groupoid of P. Explicitly, it is given by the following short exact sequence of vector bundles over M:

${\displaystyle 0\to P\times _{G}{\mathfrak {g}}\to TP/G\to TM\to 0.}$

It is named after Michael Atiyah, who introduced the construction to study the existence theory of complex analytic connections, and it has applications in gauge theory and mechanics.

For any fiber bundle P over a manifold M, with projection π: P→M, the differential dπ of π defines a short exact sequence

${\displaystyle 0\to VP\to TP{\xrightarrow {d\pi }}\pi ^{*}TM\to 0}$

of vector bundles over P, where the vertical bundle VP is the kernel of the differential projection.

If P is a principal G-bundle, then the group G acts on the vector bundles in this sequence. The vertical bundle is isomorphic to the trivial g bundle over P, where g is the Lie algebra of G, and the quotient by the diagonal G action is the associated bundle P ×_G g. The quotient by G of this exact sequence thus yields the Atiyah sequence of vector bundles over M.

Any principal G-bundle P→M has a gauge groupoid, whose objects are points of M, and whose morphisms are elements of the quotient of P×P by the diagonal action of G, with source and target given by the two projections of M. The Lie algebroid of this Lie groupoid is the Atiyah algebroid.

• Michael F. Atiyah (1957), "Complex analytic connections in fibre bundles", Trans. Amer. Math. Soc., 85: 181–207.
• "Geometric structures encoded in the lie structure of an Atiyah algebroid", Transformation Groups, 16: 137–160, 2011, doi:10.1007/s00031-011-9126-9 {{citation}}: Unknown parameter |authors= ignored (help), available as arXiv:0905.1226.
• Kirill Mackenzie (1987), Lie groupoids and Lie algebroids in differential geometry, London Mathematical Society lecture notes, vol. 124, CUP, ISBN 978-0521348829.
• Kirill Mackenzie (2005), General theory of lie groupoids and lie algebroids, London Mathematical Society lecture notes, vol. 213, CUP, ISBN 978-0521499286.
• "A Lie algebroid framework for non-holonomic systems", J. Phys. A: Math. Gen., 38: 1097–1111, 2005, doi:10.1088/0305-4470/38/5/011 {{citation}}: Unknown parameter |authors= ignored (help).