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Packing and counting arbitrary Hamilton cycles in random digraphs

Published 11 Mar 2016 in math.CO | (1603.03614v1)

Abstract: We prove packing and counting theorems for arbitrarily oriented Hamilton cycles in ${\cal D}(n,p)$ for nearly optimal $p$ (up to a $\log cn$ factor). In particular, we show that given $t = (1-o(1))np$ Hamilton cycles $C_1,\ldots ,C_{t}$, each of which is oriented arbitrarily, a digraph $D \sim {\cal D}(n,p)$ w.h.p. contains edge disjoint copies of $C_1,\ldots ,C_t$, provided $p=\omega(\log 3 n/n)$. We also show that given an arbitrarily oriented $n$-vertex cycle $C$, a random digraph $D \sim {\cal D}(n,p)$ w.h.p. contains $(1\pm o(1))n!pn$ copies of $C$, provided $p \geq \log {1 + o(1)}n/n$.

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Authors (2)

  1. Asaf Ferber 
  2. Eoin Long 

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