On the size of the fibers of spectral maps induced by semialgebraic embeddings

Abstract

Let S(M) be the ring of (continuous) semialgebraic functions on a semialgebraic set M⊂ Rm and S*(M) its subring of bounded semialgebraic functions. In this work we compute the size of the fibers of the spectral maps Spec( j)1: Spec( S(N)) Spec( S(M)) and Spec( j)2: Spec( S*(N)) Spec( S*(M)) induced by the inclusion j:N M of a semialgebraic subset N of M. The ring S(M) can be understood as the localization of S*(M) at the multiplicative subset WM of those bounded semialgebraic functions on M with empty zero set. This provides a natural inclusion iM: Spec( S(M)) Spec( S*(M)) that reduces both problems above to an analysis of the fibers of the spectral map Spec( j)2: Spec( S*(N)) Spec( S*(M)). If we denote Z:= cl Spec( S*(M))(M N), it holds that the restriction map Spec( j)2|: Spec( S*(N)) Spec( j)2-1(Z) Spec( S*(M)) Z is a homeomorphism. Our problem concentrates on the computation of the size of the fibers of Spec( j)2 at the points of Z. The size of the fibers of prime ideals `close' to the complement Y:=M N provides valuable information concerning how N is immersed inside M. If N is dense in M, the map Spec( j)2 is surjective and the generic fiber of a prime ideal p∈ Z contains infinitely many elements. However, finite fibers may also appear and we provide a criterium to decide when the fiber Spec( j)2-1( p) is a finite set for p∈ Z.