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NOTES ON SOME ERDŐS–HAJNAL PROBLEMS

Part of: Set theory

Published online by Cambridge University Press:  12 August 2021

PÉTER KOMJÁTH
PÉTER KOMJÁTH*
Affiliation:
INSTITUTE OF MATHEMATICS EÖTVÖS UNIVERSITYBUDAPEST, PÁZMÁNY P. S. 1/C, 1117, HUNGARYE-mail:[email protected]
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Abstract

We make comments on some problems Erdős and Hajnal posed in their famous problem list. Let X be a graph on $\omega _1$ with the property that every uncountable set A of vertices contains a finite set s such that each element of $A-s$ is joined to one of the elements of s. Does then X contain an uncountable clique? (Problem 69) We prove that both the statement and its negation are consistent. Do there exist circuitfree graphs $\{X_n:n<\omega \}$ on $\omega _1$ such that if $A\in [\omega _1]^{\aleph _1}$ , then $\{n<\omega :X_n\cap [A]^2=\emptyset \}$ is finite? (Problem 61) We show that the answer is yes under CH, and no under Martin’s axiom. Does there exist $F:[\omega _1]^2\to 3$ with all three colors appearing in every uncountable set, and with no triangle of three colors. (Problem 68) We give a different proof of Todorcevic’ theorem that the existence of a $\kappa $ -Suslin tree gives $F:[\kappa ]^2\to \kappa $ establishing $\kappa \not \to [\kappa ]^2_{\kappa }$ with no three-colored triangles. This statement in turn implies the existence of a $\kappa $ -Aronszajn tree.

Keywords

infinite graphstreesforcing

MSC classification

Primary: 03E05: Other combinatorial set theory
Secondary: 03E35: Consistency and independence results
Type
Article
Information
The Journal of Symbolic Logic , Volume 86 , Issue 3 , September 2021 , pp. 1116 - 1123
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Copyright
© Association for Symbolic Logic 2021

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References

REFERENCES

Erdős, P. and Hajnal, A., Unsolved problems in set theory. Proceedings of Symposia in Pure Mathematics, XIII, Providence, RI, 1971, pp. 1748.10.1090/pspum/013.1/0280381CrossRefGoogle Scholar
Erdős, P. and Hajnal, A., Unsolved and solved problems in set theory, Proceedings of the Tarski Symposium (L. A. Henkin, editor), American Mathematical Society, Providence, 1974, 269287.10.1090/pspum/025/0357122CrossRefGoogle Scholar
Shelah, S., Colouring without triangles and partition relations. Israel Journal of Mathematics, vol. 20 (1975), pp. 112.10.1007/BF02756751CrossRefGoogle Scholar
Shelah, S., Can you take Solovay’s inaccessible away? Israel Journal of Mathematics, vol. 48 (1984), pp. 147.10.1007/BF02760522CrossRefGoogle Scholar
Todorcevic, S., Trees, subtrees, and order types . Annals of Mathematics Logic, vol. 20 (1981), pp. 233268.10.1016/0003-4843(81)90005-XCrossRefGoogle Scholar
Todorcevic, S., Forcing positive partition relations. Transactions of the American Mathematical Society, vol. 280 (1983), pp. 703720.10.1090/S0002-9947-1983-0716846-0CrossRefGoogle Scholar
William, J., Mitchell: Aronszajn trees and the independence of the transfer property. Annals of Pure and Applied Logic, vol. 5 (1972/1973), pp. 2146.Google Scholar