Linear maps which are anti-derivable at zero

Abstract

Let T:A X be a bounded linear operator, where A is a C*-algebra, and X denotes an essential Banach A-bimodule. We prove that the following statements are equivalent: (a) T is anti-derivable at zero (i.e. ab =0 in A implies T(b) a + b T(a)=0); (b) There exist an anti-derivation d:A X** and an element ∈ X** satisfying a = a , [a,b]=0, T(a b) = b T(a) + T(b) a - b a, and T(a) = d(a) + a, for all a,b∈ A. We also prove a similar equivalence when X is replaced with A**. This provides a complete characterization of those bounded linear maps from A into X or into A** which are anti-derivable at zero. We also present a complete characterization of those continuous linear operators which are *-anti-derivable at zero.