Dedekind group
In group theory, a Dedekind group is a group G such that every subgroup of G is normal.
All abelian groups are Dedekind groups.
A non-abelian Dedekind group is called a Hamiltonian group.
The most familiar example of a Hamiltonian group is the quaternion group of order 8, denoted by Q8.
Dedekind and Baer have shown that every Hamiltonian group is a direct product of the form, where B is an elementary abelian 2-group, and D is a periodic abelian group with all elements of odd order.
Dedekind groups are named after Richard Dedekind, who investigated them in, proving a form of the above structure theorem. He named the non-abelian ones after William Rowan Hamilton, the discoverer of quaternions.
In 1898 George Miller delineated the structure of a Hamiltonian group in terms of its order and that of its subgroups. For instance, he shows "a Hamilton group of order 2a has quaternion groups as subgroups". In 2005 Horvat et al used this structure to count the number of Hamiltonian groups of any order where o is an odd integer. When then there are no Hamiltonian groups of order n, otherwise there are the same number as there are Abelian groups of order o.
