Homological integration

In the mathematical fields of differential geometry and geometric measure theory, homological integration or geometric integration is a method for extending the notion of the integral to manifolds. Rather than functions or differential forms, the integral is defined over currents on a manifold.

The theory is "homological" because currents themselves are defined by duality with differential forms. To wit, the space D^k of k-currents on a manifold M is defined as the dual space, in the sense of distributions, of the space of k-forms Ω^k on M. Thus there is a pairing between k-currents T and k-forms α, denoted here by

${\displaystyle ⟨T,\alpha ⟩.}$

Under this duality pairing, the exterior derivative

${\displaystyle d:{\Omega }^{k-1}\to {\Omega }^k}$

goes over to a boundary operator

${\displaystyle \partial :D^k\to D^{k-1}}$

defined by

${\displaystyle ⟨\partial T,\alpha ⟩=⟨T,d\alpha ⟩}$

for all α ∈ Ω^k. This is a homological rather than cohomological construction.

• Lua error in Module:Citation/CS1/Configuration at line 2172: attempt to index field '?' (a nil value)..
• Lua error in Module:Citation/CS1/Configuration at line 2172: attempt to index field '?' (a nil value)..