On embedding of linear hypersurfaces

Abstract

Linear hypersurfaces over a field k have been playing a central role in the study of some of the challenging problems on affine spaces. Breakthroughs on such problems have occurred by examining two difficult questions on linear polynomials of the form H:=α(X1,…,Xm)Y - F(X1,…, Xm,Z,T)∈ D:=k[X1,…,Xm, Y,Z,T]: (i) Whether H defines a closed embedding of Am+2 into Am+3, i.e., whether the affine variety V⊂eq Am+3k defined by H is isomorphic to Am+2k. (ii) If H defines a closed embedding Am+2 Am+3 then whether H is a coordinate in D. Question (i) connects to the Characterization Problem of identifying affine spaces among affine varieties; Question (ii) is a special case of the formidable Embedding Problem for affine spaces. In their earlier work the first two authors had addressed these questions when α is a monomial of the form α(X1,…,Xm) = X1r1… Xmrm; ri>1, 1 ≤slant i ≤slant m and F is of a certain type. In this paper, using K-theory and Ga-actions, we address these questions for a wider family of linear varieties. In particular, we obtain certain families of higher dimensional hyperplanes H satisfying the Abhyankar Sathaye conjecture on the Embedding problem. For instance, we show that when the characteristic of k is zero, F ∈ k[Z,T] and H defines a hyperplane, then H is a coordinate in D along with X1, X2, …, Xm. Our results in arbitrary characteristic yield counterexamples to the Zariski Cancellation Problem in positive characteristic.

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