Original scientific paper
On the smallest integer vector at which a multivariable polynomial does not vanish
Arturas Dubickas
orcid.org/0000-0002-3625-9466
; Institute of Mathematics, Faculty of Mathematics and Informatics, Vilnius University, Vilnius, Lithuania
Abstract
We prove that for any polynomial $P$ of degree $d$ in $\C[x_1,\dots,x_n]$ there exists a vector $(u_1,\dots,u_n) \in \Z^n$ such that $P(u_1,\dots,u_n) \ne 0$ and $\sum_{i=1}^n |u_i| \leq \min\{d, \lfloor (d+n)/2 \rfloor\}$. We also show that this bound is best possible. Similarly, for any $P \in \C[x_1,\dots,x_n]$ of degree $d$ and any real number $p \geq \log 3/\log 2$ there is a vector $(u_1,\dots,u_n) \in \Z^n$ such that $P(u_1,\dots,u_n) \ne 0$ and $\sum_{i=1}^n |u_i|^p \leq \max\{1+\lfloor d/2 \rfloor^p, \lfloor (d+1)/2 \rfloor^p\}$. The latter bound is also best possible for every $n \geq 2$.
Keywords
multivariable polynomial; combinatorial Nullstellensatz; $L^p$-norm; integer vector
Hrčak ID:
244263
URI
Publication date:
29.9.2020.
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