Factorization of noncommutative polynomials and Nullstellens\"atze for the free algebra

Abstract

This article gives a class of Nullstellens\"atze for noncommutative polynomials. The singularity set of a noncommutative polynomial f=f(x1,…,xg) is Z(f)=(Zn(f))n, where Zn(f)=\X ∈ Mng: f(X) = 0\. The first main theorem of this article shows that the irreducible factors of f are in a natural bijective correspondence with irreducible components of Zn(f) for every sufficiently large n. With each polynomial h in x and x* one also associates its real singularity set Zre(h)=\X: h(X,X*)=0\. A polynomial f which depends on x alone (no x* variables) will be called analytic. The main Nullstellensatz proved here is as follows: for analytic f but for h dependent on possibly both x and x*, the containment Z(f) ⊂eq Zre(h) is equivalent to each factor of f being "stably associated" to a factor of h or of h*. For perspective, classical Hilbert type Nullstellens\"atze typically apply only to analytic polynomials f,h , while real Nullstellens\"atze typically require adjusting the functions by sums of squares of polynomials (sos). Since the above "algebraic certificate" does not involve a sos, it seems justified to think of this as the natural determinantal Hilbert Nullstellensatz. An earlier paper of the authors (Adv. Math. 331 (2018) 589-626) obtained such a theorem for special classes of analytic polynomials f and h. This paper requires few hypotheses and hopefully brings this type of Nullstellensatz to near final form. Finally, the paper gives a Nullstellensatz for zeros V(f)=\X: f(X,X*)=0\ of a hermitian polynomial f, leading to a strong Positivstellensatz for quadratic free semialgebraic sets by the use of a slack variable.