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An induced cycle is a cycle that is an induced subgraph of G; induced cycles are also called chordless cycles or (when the length of the cycle is four or more) holes.

Can anyone please tell me what is the maximum number of holes that a simple graph on n vertices can have?

How to prove a polynomial upper-bound (i.e. $O(n^k)$ for some fixed $k$) for that?

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If you devide your set of vertices into $k$ ($k \in \mathbb{Z}_{\geq 3}$) sets $V_1, V_2,\dots,V_k$ and take all edges from $V_i$ to $V_{i+1\ (mod\ k)}$, then you get $(n/k)^k$ holes of length $k$. This is an exponential nunber so there is no polynomial upper bound. I dont know what the precise maximum is.

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  • $\begingroup$ The maximum occurs for $k=3$. A few decades ago Mike Robson showed me a proof that the bound $3^{n/3}$ is sharp, but I don't recall the details and won't swear to it. $\endgroup$ Jun 19, 2012 at 0:48
  • $\begingroup$ Dear Brendan, Kalai’s construction for $k=3$ gives only $3({{n/3}\choose{2}}+{{n/3}\choose{2}})$ (that is polynomial) holes of length 4. This construction for any $k>3$ gives $k({{n/k}\choose{2}}+{{n/k}\choose{2}})$ holes of length 4 and $(n/k)^k$ holes of length $k$. $\endgroup$
    – j.s.
    Jun 19, 2012 at 10:21
  • $\begingroup$ The maximum rather occurs for $k \approx \frac{n}{e}$. $\endgroup$
    – Nubok
    May 4, 2017 at 16:24

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