Additive group of a field: Difference between revisions

Revision as of 21:11, 2 September 2009

A group is termed the additive group of a field if it satisfies the following equivalent conditions:

There exists a field whose additive group is isomorphic to the given group.
There exists a vector space over a field whose additive group is isomorphic to the given group.
The given group is an internal (restricted) direct product of copies of a cyclic group of prime order, or of the group of rational numbers.
It is abelian and characteristically simple.
It is abelian and it has no proper nontrivial fully invariant subgroup.
It is abelian, and its automorphism group is transitive on non-identity elements.

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 * There exists a vector space over a field whose additive group is isomorphic to the given group.
 * The given group is an internal (restricted) direct product of copies of a cyclic group of prime order, or of the [[group of rational numbers]].
-* It is [[Abelian group|Abelian]] and [[characteristically simple group|characteristically simple]].
+* It is [[Abelian group|abelian]] and [[characteristically simple group|characteristically simple]].
-* It is [[Abelian group|Abelian]] and [[FC-simple group|FC-simple]]: it has no proper nontrivial [[fully characteristic subgroup]].
+* It is [[Abelian group|abelian]] and it has no proper nontrivial [[fully invariant subgroup]].
-* It is Abelian, and its [[group whose automorphism group is transitive on non-identity elements|automorphism group is transitive on non-identity elements]].
+* It is abelian, and its [[group whose automorphism group is transitive on non-identity elements|automorphism group is transitive on non-identity elements]].
 ===Equivalence of definitions===
 {{further|[[Abelian and FC-simple implies additive group of a field]]}}
 ==Relation with other properties==