Gross–Koblitz formula

The Gross–Koblitz formula states that the Gauss sum ${\displaystyle \tau }$  can be given in terms of the ${\displaystyle p}$ -adic gamma function ${\displaystyle \Gamma _{p}}$  by

${\displaystyle \tau _{q}(r)=-\pi ^{s_{p}(r)}\prod _{0\leq i<f}\Gamma _{p}\!\left({\frac {r^{(i)}}{q-1}}\right)}$ 

where

• ${\displaystyle q}$  is a power ${\displaystyle p^{f}}$  of a prime ${\displaystyle p}$ ,
• ${\displaystyle r}$  is an integer with ${\displaystyle 0\leq r<q-1}$ ,
• ${\displaystyle r^{(i)}}$  is the integer whose base-${\displaystyle p}$  expansion is a cyclic permutation of the ${\displaystyle f}$  digits of ${\displaystyle r}$  by ${\displaystyle i}$  positions,
• ${\displaystyle s_{p}(r)}$  is the sum of the base-${\displaystyle p}$  digits of ${\displaystyle r}$ ,
• ${\displaystyle \tau _{q}(r)=\sum _{a^{q-1}=1}a^{-r}\zeta _{\pi }^{{\text{Tr}}(a)}}$ , where the sum is over roots of unity in the extension ${\displaystyle \mathbb {Q} _{p}(\pi )}$ ,
• ${\displaystyle \pi }$  satisfies ${\displaystyle \pi ^{p-1}=-p}$ , and
• ${\displaystyle \zeta _{\pi }}$  is the ${\displaystyle p}$ th root of unity congruent to ${\displaystyle 1+\pi }$  modulo ${\displaystyle \pi ^{2}}$ .

• Boyarsky, Maurizio (1980), "p-adic gamma functions and Dwork cohomology", Transactions of the American Mathematical Society, 257 (2): 359–369, doi:10.2307/1998301, ISSN 0002-9947, JSTOR 1998301, MR 0552263
• Cohen, Henri (2007). Number Theory – Volume II: Analytic and Modern Tools. Graduate Texts in Mathematics. Vol. 240. Springer-Verlag. pp. 383–395. ISBN 978-0-387-49893-5. Zbl 1119.11002.
• Gross, Benedict H.; Koblitz, Neal (1979), "Gauss sums and the p-adic Γ-function", Annals of Mathematics, Second Series, 109 (3): 569–581, doi:10.2307/1971226, ISSN 0003-486X, JSTOR 1971226, MR 0534763
• Robert, Alain M. (2001), "The Gross-Koblitz formula revisited", Rendiconti del Seminario Matematico della Università di Padova. The Mathematical Journal of the University of Padova, 105: 157–170, ISSN 0041-8994, MR 1834987