In mathematics, the Herbrand quotient is a quotient of orders of cohomology groups of a cyclic group. It was invented by Jacques Herbrand. It has an important application in class field theory.
If G is a finite cyclic group acting on a G-module A, then the cohomology groups Hn(G,A) have period 2 for n≥1; in other words
Hn(G,A) = Hn+2(G,A),an isomorphism induced by cup product with a generator of H2(G,Z). (If instead we use the Tate cohomology groups then the periodicity extends down to n=0.)
A Herbrand module is an A for which the cohomology groups are finite. In this case, the Herbrand quotient h(G,A) is defined to be the quotient
h(G,A) = |H2(G,A)|/|H1(G,A)|of the order of the even and odd cohomology groups.
The quotient may be defined for a pair of endomorphisms of an Abelian group, f and g, which satisfy the condition fg = gf = 0. Their Herbrand quotient q(f,g) is defined as
q(f,g)=
| |kerf:img| | |
| |kerg:imf| |
if the two indices are finite. If G is a cyclic group with generator γ acting on an Abelian group A, then we recover the previous definition by taking f = 1 - γ and g = 1 + γ + γ2 + ... .
0 → A → B → C → 0is exact, and any two of the quotients are defined, then so is the third and[2]
h(G,B) = h(G,A)h(G,C)
These properties mean that the Herbrand quotient is usually relatively easy to calculate, and is often much easier to calculate than the orders of either of the individual cohomology groups.
. Henri Cohen (number theorist) . 2007 . Number Theory – Volume I: Tools and Diophantine Equations. 978-0-387-49922-2. Springer-Verlag. Graduate Texts in Mathematics. 239. 1119.11001 . 242–248.
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