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    Multiple harmonic sums and Wolstenholme's theorem

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    We give a family of congruences for the binomial coefficients (kpβˆ’1pβˆ’1){kp-1\choose p-1} in terms of multiple harmonic sums, a generalization of the harmonic numbers. Each congruence in this family (which depends on an additional parameter nn) involves a linear combination of nn multiple harmonic sums, and holds mod  p2n+3\mod{p^{2n+3}}. The coefficients in these congruences are integers depending on nn and kk, but independent of pp. More generally, we construct a family of congruences for (kpβˆ’1pβˆ’1)mod  p2n+3{kp-1\choose p-1} \mod{p^{2n+3}}, whose members contain a variable number of terms, and show that in this family there is a unique "optimized" congruence involving the fewest terms. The special case k=2k=2 and n=0n=0 recovers Wolstenholme's theorem (2pβˆ’1pβˆ’1)≑1mod  p3{2p-1\choose p-1}\equiv 1\mod{p^3}, valid for all primes pβ‰₯5p\geq 5. We also characterize those triples (n,k,p)(n, k, p) for which the optimized congruence holds modulo an extra power of pp: they are precisely those with either pp dividing the numerator of the Bernoulli number Bpβˆ’2nβˆ’kB_{p-2n-k}, or k≑0,1mod  pk \equiv 0, 1 \mod p.Comment: 22 page
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