This article may be too technical for most readers to understand.(June 2016) |
In algebraic geometry, p-curvature is an invariant of a connection on a coherent sheaf for schemes of characteristic p > 0. It is a construction similar to a usual curvature, but only exists in finite characteristic.
Definition
editSuppose X/S is a smooth morphism of schemes of finite characteristic p > 0, E a vector bundle on X, and a connection on E. The p-curvature of is a map defined by
for any derivation D of over S. Here we use that the pth power of a derivation is still a derivation over schemes of characteristic p. A useful property is that the expression is -linear in e, in contrast to the Leibniz rule for connections. Moreover, the expression is p-linear in D.
By the definition p-curvature measures the failure of the map to be a homomorphism of restricted Lie algebras, just like the usual curvature in differential geometry measures how far this map is from being a homomorphism of Lie algebras.
See also
editReferences
edit- Katz, N., "Nilpotent connections and the monodromy theorem", IHES Publ. Math. 39 (1970) 175–232.
- Ogus, A., "Higgs cohomology, p-curvature, and the Cartier isomorphism", Compositio Mathematica, 140.1 (Jan 2004): 145–164.