Hall-extensible implies class-preserving
This article gives the statement and possibly, proof, of an implication relation between two subgroup properties. That is, it states that every subgroup satisfying the first subgroup property (i.e., Hall-extensible automorphism) must also satisfy the second subgroup property (i.e., class-preserving automorphism)
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Further information: Hall-extensible automorphism
Further information: Class-preserving automorphism
An automorphism of a finite group is termed class-preserving if it sends every element to a conjugate element.
- Hall-semidirectly extensible implies class-preserving
- Finite-extensible implies class-preserving
- Finite-quotient-pullbackable implies class-preserving
- Hall-extensible implies Hall-semidirectly extensible
- Hall-semidirectly extensible implies linearly pushforwardable over prime field
- Linearly pushforwardable implies class-preserving for class-separating field
- Every finite group admits a sufficiently large prime field
- Sufficiently large implies splitting, Splitting implies character-separating, Character-separating implies class-separating
Facts (1) and (2) combine to yield that any Hall-extensible automorphism is linearly pushforwardable over a prime field where the prime does not divide the order of the group, and fact (3) yields that if the field chosen is a class-separating field for the group, then the automorphism is class-preserving. Thus, we need to show that for every finite group, there exists a prime field with the prime not dividing the order of the group, such that the field is a class-separating field for the group. This is achieved by facts (4) and (5).