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Nearly Equal Distributions of the Rank and the Crank of Partitions

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 Added by William Y. C. Chen
 Publication date 2017
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and research's language is English




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Let $N(leq m,n)$ denote the number of partitions of $n$ with rank not greater than $m$, and let $M(leq m,n)$ denote the number of partitions of $n$ with crank not greater than $m$. Bringmann and Mahlburg observed that $N(leq m,n)leq M(leq m,n)leq N(leq m+1,n)$ for $m<0$ and $1leq nleq 100$. They also pointed out that these inequalities can be restated as the existence of a re-ordering $tau_n$ on the set of partitions of $n$ such that $|text{crank}(lambda)|-|text{rank}(tau_n(lambda))|=0$ or $1$ for all partitions $lambda$ of $n$, that is, the rank and the crank are nearly equal distributions over partitions of $n$. In the study of the spt-function, Andrews, Dyson and Rhoades proposed a conjecture on the unimodality of the spt-crank, and they showed that this conjecture is equivalent to the inequality $N(leq m,n)leq M(leq m,n)$ for $m<0$ and $ngeq 1$. We proved this conjecture by combiantorial arguments. In this paper, we prove the inequality $N(leq m,n)leq M(leq m,n)$ for $m<0$ and $ngeq 1$. Furthermore, we define a re-ordering $tau_n$ of the partitions $lambda$ of $n$ and show that this re-ordering $tau_n$ leads to the nearly equal distribution of the rank and the crank. Using the re-ordering $tau_n$, we give a new combinatorial interpretation of the function ospt$(n)$ defined by Andrews, Chan and Kim, which immediately leads to an upper bound for $ospt(n)$ due to Chan and Mao.



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