Linear maps preserving matrices annihilated by a fixed polynomial

Abstract

Let Mn(F) be the algebra of n× n matrices over an arbitrary field F. We consider linear maps : Mn(F) → Mr(F) preserving matrices annihilated by a fixed polynomial f(x) = (x-a1)·s (x-am) with m 2 distinct zeroes a1, a2, …, am ∈ F; namely, f((A)) = 0 f(A) = 0. Suppose that f(0)=0, and the zero set Z(f) =\a1, …, am\ is not an additive group. Then assumes the form aligneq:standard A Spmatrix A D1 && & AT D2& && 0spmatrixS-1, align for some invertible matrix S∈ Mr(F), invertible diagonal matrices D1∈ Mp(F) and D2∈ Mq(F), where s=r-np-nq≥ 0. The diagonal entries λ in D1 and D2, as well as 0 in the zero matrix 0s, are zero multipliers of f(x) in the sense that λ Z(f) ⊂eq Z(f). In general, assume that Z(f) - a1 is not an additive group. If (In) commutes with (A) for all A∈ Mn(F), or if f(x) has a unique zero multiplier λ=1, then assumes the form eq:standard. The above assertions follow from the special case when f(x) = x(x-1)=x2-x, for which the problem reduces to the study of linear idempotent preservers. It is shown that a linear map : Mn(F) → Mr(F) sending disjoint rank one idempotents to disjoint idempotents always assume the above form eq:standard with D1=Ip and D2=Iq, unless Mn(F) = M2(Z2).