CN-group

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In mathematics, in the area of algebra known as group theory, a more than fifty-year effort was made to answer a conjecture of (Burnside 1911): are all groups of odd order solvable? Progress was made by showing that CA-groups, groups in which the centralizer of a non-identity element is abelian, of odd order are solvable (Suzuki 1957). Further progress was made showing that CN-groups, groups in which the centralizer of a non-identity element is nilpotent, of odd order are solvable (Feit Thompson). The complete solution was given in (Feit Thompson), but further work on CN-groups was done in (Suzuki 1961), giving more detailed information about the structure of these groups. For instance, a non-solvable CN-group G is such that its largest solvable normal subgroup O(G) is a 2-group, and the quotient is a group of even order.

Examples

Solvable CN groups include

  • Nilpotent groups
  • Frobenius groups whose Frobenius complement is nilpotent
  • 3-step groups, such as the symmetric group S4

Non-solvable CN groups include:

  • The Suzuki simple groups
  • The groups PSL2(F2n) for n>1
  • The group PSL2(Fp) for p>3 a Fermat prime or Mersenne prime.
  • The group PSL2(F9)
  • The group PSL3(F4)

References