Journal of applied mathematics & informatics

The Korean Society for Computational and Applied Mathematics (한국전산응용수학회)
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COMBINATORIAL PROOF FOR THE POSITIVITY OF THE ORBIT POLYNOMIAL $O^{n,3}_d(q)$

  • Received : 2010.10.06
  • Accepted : 2011.09.26
  • Published : 2012.05.30
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Abstract

The cyclic group $Cn={\langle}(12{\cdots}n){\rangle}$ acts on the set ($^{[n]}_k$) of all $k$-subsets of [$n$]. In this action of $C_n$ the number of orbits of size $d$, for $d|n$, is $$O^{n,k}_d=\frac{1}{d}\sum_{\frac{n}{d}|s|n}{\mu}(\frac{ds}{n})(^{n/s}_{k/s})$$. Stanton and White[7] generalized the above identity to construct the orbit polynomials $$O^{n,k}_d(q)=\frac{1}{[d]_{q^{n/d}}}\sum_{\frac{n}{d}|s|n}{\mu}(\frac{ds}{n})[^{n/s}_{k/s}]{_q}^s$$ and conjectured that $O^{n,k}_d(q)$ have non-negative coefficients. In this paper we give a combinatorial proof for the positivity of coefficients of the orbit polynomial $O^{n,3}_d(q)$.

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References

  1. G. Andrews, The Friedman-Joichi-Stanton monotonicity conjecture at primes, To appear, Amer.Math.Soc. DIMACS book series.
  2. F.Chapoton, http://www.lacim.uqam.ca/chapoton/arbres.html.
  3. K. Drudge, On the orbits of Singer groups and their subgroups, Elec. J. Comb. 9 (2002), R15.
  4. M. Haiman, Conjectures on the quotient ring by diagonal invariants, J. Alg. Comb. 3 (1994), 17-76. https://doi.org/10.1023/A:1022450120589
  5. V. Reiner, D. Stanton and D. White, The Cyclic Sieving Phenomenon, J. Combin. Theory Ser. A, 108(1) (2004), 17-50. https://doi.org/10.1016/j.jcta.2004.04.009
  6. B. Sagan, personal communication.
  7. D. Stanton and D. White, Sieved q-Binomial Coefficients, Preprint.
  8. J.R. Stembridge, Some hidden relations involving the ten symmetry classes of plane partitions, J. Combin. Theory Ser A 68 (1994), 372-409. https://doi.org/10.1016/0097-3165(94)90112-0