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Title:
Hyperbolicity and determinantal representations for higher-codimensional subvarieties

Speaker:
Victor Vinnikov

Abstract:
Let $X $ be a real subvariety of codimension $\ell$ in the complex projective space ${\mathbb P}^d$. We say that $X$ is hyperbolic with respect to a real linear space $V$ of dimension $\ell-1$ if $X \cap V = \emptyset$ and $X$ intersects any real linear space of dimension $\ell$ through $V$ in real points only. Alternatively, if $Y$ is the associated hypersurface of $X$ in the Grassmanian ${\mathbb G}(\ell-1,d)$ of $\ell-1$-dimensional linear spaces in ${! \mathbb P}^d$, then $V \not\in Y$ and $Y$ intersects any real one-dimensional Schubert cycle through $V$ in real points only. In the case $\ell=1$, i.e., $X$ is a hypersurface, this simply means that $X$ is the zero locus of a homogeneous hyperbolic polynomial. I will discuss hyperbolic subvarieties of a higher codimension, the analogues of hyperbolicity cones, and a class of definite Hermitian determinantal representations that witnesses hyperbolicity. It turns out that the analogue of the Lax conjecture holds --- any real curve in ${\mathbb P}^d$ that is hyperbolic with respect to some $d-2$-dimensional linear space admits a definite Hermitian, or even real symmetric, determinantal representation.

Link:
https://www.msri.org/workshops/754/schedules/19578

Workshop:
MSRI- Hot Topics: Kadison-Singer, Interlacing Polynomials, and Beyond