On the simplification of singularities by blowing up at equimultiple centers

Abstract

Resolution of singularities of varieties over fields of characteristic zero can be proved by using the multiplicity as main invariant. The proof of this result leads to new questions in positive characteristic. We discuss here results which follow by induction on the dimension of the varieties. Fix a variety X(d) of dimension d over a perfect field k or, more generally, a pure dimensional scheme of finite type over k. Fix a closed point x∈ X(d) of multiplicity e>1. Define a local simplification of the multiplicity at x∈ X(d) as a proper birational map, say X(d)← X(d)1, where X(d) denotes now a neighborhood of x, so that X(d)1 has multiplicity <e at any point x1∈ X(d)1. Assume, by induction on d, the existence of local simplifications of the multiplicity for schemes over k of dimension d', for all d' <d. We prove, under this inductive assumption, that a local simplification at x∈ X(d) can be constructed when (CX,x)red is not regular. Here CX,x denotes the tangent cone of x∈ X, and (CX,x)red is the reduced scheme. The paper uses classical results of commutative algebra, and compares the effect of blowing up along equimultiple centers, and along normally flat centers.