Characterizations of centralizers and derivations on some algebras

Abstract

A linear mapping φ on an algebra A is called a centralizable mapping at G∈A if φ(AB)=φ(A)B=Aφ(B) for each A and B in A with AB=G, and φ is called a derivable mapping at G∈A if φ(AB)=φ(A)B+Aφ(B) for each A and B in A with AB=G. A point G in A is called a full-centralizable point (resp. full-derivable point) if every centralizable (resp. derivable) mapping at G is a centralizer (resp. derivation). We prove that every point in a von Neumann algebra or a triangular algebra is a full-centralizable point. We also prove that a point in a von Neumann algebra is a full-derivable point if and only if its central carrier is the unit.