Entropy-based upper bounds on A-perfect matchings in uniform bipartite hypergraphs with bounded codegree yield (n/e^{2.117})^n transversals for odd-order Latin squares with n ≡ 0 mod 3 and ((1+o(1))q/e^k)^{Dn/k} proper q-edge-colorings for k-uniform D-regular hypergraphs with q ≈ D and small codeg
New bounds on the number of n-queens configurations
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abstract
In how many ways can $n$ queens be placed on an $n \times n$ chessboard so that no two queens attack each other? This is the famous $n$-queens problem. Let $Q(n)$ denote the number of such configurations, and let $T(n)$ be the number of configurations on a toroidal chessboard. We show that for every $n$ of the form $4^k+1$, $T(n)$ and $Q(n)$ are both at least $n^{\Omega(n)}$. This result confirms a conjecture of Rivin, Vardi and Zimmerman for these values of $n$. We also present new upper bounds on $T(n)$ and $Q(n)$ using the entropy method, and conjecture that in the case of $T(n)$ the bound is asymptotically tight. Along the way, we prove an upper bound on the number of perfect matchings in regular hypergraphs, which may be of independent interest.
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math.CO 1years
2025 1verdicts
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Entropy Bounds for Perfect Matchings in Bipartite Hypergraphs
Entropy-based upper bounds on A-perfect matchings in uniform bipartite hypergraphs with bounded codegree yield (n/e^{2.117})^n transversals for odd-order Latin squares with n ≡ 0 mod 3 and ((1+o(1))q/e^k)^{Dn/k} proper q-edge-colorings for k-uniform D-regular hypergraphs with q ≈ D and small codeg