中文

Random polynomials with prescribed Newton polytope

代数几何 2007-05-23 v2 复变函数 概率论

摘要

We show that the Newton polytope of a polynomial has a strong impact on the distribution of its mass and zeros. The basic theme is that Newton polytopes determine allowed and forbidden regions for these distributions. We equip the space of (holomorphic) polynomials of degree p\leq p in mm complex variables with its usual SU(m+1)SU(m + 1)-invariant Gaussian probability measure and then consider the conditional measure induced on the subspace of polynomials with fixed Newton polytope PP. We then determine the asymptotics of the conditional expectation ENP(Zk)E_{|N P}(Z^k) of simultaneous zeros of kk polynomials with Newton polytope NPNP as NN \to \infty. When P=ΣP = \Sigma, the unit simplex, then it is obvious and well-known that the expected zero distribution ENΣ(Zk)E_{|N\Sigma}(Z^k) is uniform relative to the Fubini-Study form. For a convex polytope PpΣP\subset p\Sigma, we show that there is an allowed region on which NkENP(Zk)N^{-k}E_{|N P}(Z^k) is asymptotically uniform as the scaling factor NN\to\infty. However, the zeros have an exotic distribution in the complementary forbidden region, and when k=mk=m, the expected percentage of simultaneous zeros in the forbidden region approaches 0 as NN\to\infty, yielding a quantitative version of the Kouchnirenko-Bernstein theorem.

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引用

@article{arxiv.math/0211391,
  title  = {Random polynomials with prescribed Newton polytope},
  author = {Bernard Shiffman and Steve Zelditch},
  journal= {arXiv preprint arXiv:math/0211391},
  year   = {2007}
}

备注

Revised exposition: terminology and facts concerning toric varieties have been moved to an appendix. This posting supersedes our article of similar title posted on the archive as math.AG/0203074. By using Euler-Maclaurin sum formulae for polytopes instead of Toeplitz analysis on toric varieties, we significantly simplied the proofs and generalized the results