A coinvariant is dual to an invariant.
Let be a discrete group, a commutative unital ring, the group ring of and a left -module, hence a linear -representation over .
Then there is well-defined quotient -module called the module of -coinvariants. Here denotes the smallest -submodule of containing all expressions of the form where and .
Notice that here and are two points on same orbit of and so the coinvariants are essentially the orbits of in .
Let be a -coalgebra, a group-like element, that is, an element such that , and a right -coaction. Any element such that is called a -coinvariant element in the -comodule . Suppose is a bialgebra, an algebra and a coaction making into a right -comodule algebra. The unit element is a group-like element, and we call -coinvariants simply -coinvariants. The subset of -coinvariants in is a subalgebra, called the subalgebra of coinvariants.
representation theory and equivariant cohomology in terms of (∞,1)-topos theory/homotopy type theory (FSS 12 I, exmp. 4.4):
Revision on April 9, 2016 at 22:44:27 by Ingo Blechschmidt See the history of this page for a list of all contributions to it.