Norm map
The mapping 
of a field 
into a field 
, where 
is a finite extension of 
(cf. Extension of a field), that sends an element 
to the element 
that is the determinant of the matrix of the 
-linear mapping 
that takes 
to 
. The element 
is called the norm of the element 
.
One has 
if and only if 
. For any 
,
 |
that is, 
induces a homomorphism of the multiplicative groups 
, which is also called the norm map. For any 
,
 |
The group 
is called the norm subgroup of 
, or the group of norms (from 
into 
). If 
is the characteristic polynomial of 
relative to 
, then
 |
Suppose that 
is separable (cf. Separable extension). Then for any 
,
 |
where the 
are all the isomorphisms of 
into the algebraic closure 
of 
fixing the elements of $k$.
The norm map is transitive. If 
and 
are finite extensions, then
 |
for any 
.
References
| [1] | S. Lang, "Algebra" , Addison-Wesley (1984) |
| [2] | Z.I. Borevich, I.R. Shafarevich, "Number theory" , Acad. Press (1966) (Translated from Russian) (German translation: Birkhäuser, 1966) |
Norm map. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Norm_map&oldid=24335