Abstract
A real number α ∈ [0, 1) is a jump for an integer r ≥ 2 if there exists c > 0 such that for any ∈ > 0 and any integer m ≥ r, there exists an integer n 0 such that any r-uniform graph with n > n 0 vertices and density ≥ α + ∈ contains a subgraph with m vertices and density ≥ α + c. It follows from a fundamental theorem of Erdös and Stone that every α ∈ [0, 1) is a jump for r = 2. Erdös also showed that every number in [0, r!/r r) is a jump for r ≥ 3 and asked whether every number in [0, 1) is a jump for r ≥ 3 as well. Frankl and Rödl gave a negative answer by showing a sequence of non-jumps for every r ≥ 3. Recently, more non-jumps were found for some r ≥ 3. But there are still a lot of unknowns on determining which numbers are jumps for r ≥ 3. The set of all previous known non-jumps for r = 3 has only an accumulation point at 1. In this paper, we give a sequence of non-jumps having an accumulation point other than 1 for every r ≥ 3. It generalizes the main result in the paper ‘A note on the jumping constant conjecture of Erdös’ by Frankl, Peng, Rödl and Talbot published in the Journal of Combinatorial Theory Ser. B. 97 (2007), 204–216.
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Peng, Y. On Substructure Densities of Hypergraphs. Graphs and Combinatorics 25, 583–600 (2009). https://doi.org/10.1007/s00373-009-0859-3
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DOI: https://doi.org/10.1007/s00373-009-0859-3