论文信息 - Roots of sparse polynomials over a finite field

Roots of sparse polynomials over a finite field

For a $t$-nomial $f(x) = \sum_{i = 1}^t c_i x^{a_i} \in \mathbb{F}_q[x]$, we show that the number of distinct, nonzero roots of $f$ is bounded above by $2 (q-1)^{1-\varepsilon} C^\varepsilon$, where $\varepsilon = 1/(t-1)$ and $C$ is the size of the largest coset in $\mathbb{F}_q^*$ on which $f$ vanishes completely. Additionally, we describe a number-theoretic parameter depending only on $q$ and the exponents $a_i$ which provides a general and easily-computable upper bound for $C$. We thus obtain a strict improvement over an earlier bound of Canetti et al.\ which is related to the uniformity of the Diffie-Hellman distribution. Finally, we conjecture that $t$-nomials over prime fields have only $O(t \log p)$ roots in $\mathbb{F}_p^*$ when $C = 1$.

Zander Kelley | Zander Kelley

[1] R. Canetti,et al. On the statistical properties of Diffie-Hellman distributions , 2000 .

[2] Igor E. Shparlinski,et al. On The Correlation Of Binary M-sequences , 1999, Des. Codes Cryptogr..

[3] Igor E. Shparlinski,et al. On the singularity of generalised Vandermonde matrices over finite fields , 2005, Finite Fields Their Appl..

[4] Zander Kelley,et al. Estimating the number of roots of trinomials over finite fields , 2015, J. Symb. Comput..

[5] Igor E. Shparlinski,et al. Sparse polynomial approximation in finite fields , 2001, STOC '01.

[6] On the number of solutions of exponential congruences , 2010, 1003.1997.

[7] J. Maurice Rojas,et al. Sparse univariate polynomials with many roots over finite fields , 2017, Finite Fields Their Appl..

[8] J. Maurice Rojas,et al. Sub-linear root detection, and new hardness results, for sparse polynomials over finite fields , 2012, ISSAC '13.