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Locally-APN Binomials with Low Boomerang Uniformity in Odd Characteristic
arXiv:2512.17603v1 Announce Type: new
Abstract: Recently, several studies have shown that when $q\equiv3\pmod{4}$, the function $F_r(x)=x^r+x^{r+\frac{q-1}{2}}$ defined over $\mathbb{F}_q$ is locally-APN and has boomerang uniformity at most~$2$. In this paper, we extend these results by showing that if there is at most one $x\in \mathbb{F}_q$ with $\chi(x)=\chi(x+1)=1$ satisfying $(x+1)^r - x^r = b$ for all $b\in \mathbb{F}_q^*$ and $\gcd(r,q-1)\mid 2$, then $F_r$ is locally-APN with boomerang uniformity at most $2$. Moreover, we study the differential spectra of $F_3$ and $F_{\frac{2q-1}{3}}$, and the boomerang spectrum of $F_2$ when $p=3$.
Abstract: Recently, several studies have shown that when $q\equiv3\pmod{4}$, the function $F_r(x)=x^r+x^{r+\frac{q-1}{2}}$ defined over $\mathbb{F}_q$ is locally-APN and has boomerang uniformity at most~$2$. In this paper, we extend these results by showing that if there is at most one $x\in \mathbb{F}_q$ with $\chi(x)=\chi(x+1)=1$ satisfying $(x+1)^r - x^r = b$ for all $b\in \mathbb{F}_q^*$ and $\gcd(r,q-1)\mid 2$, then $F_r$ is locally-APN with boomerang uniformity at most $2$. Moreover, we study the differential spectra of $F_3$ and $F_{\frac{2q-1}{3}}$, and the boomerang spectrum of $F_2$ when $p=3$.
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