Erdős–Szemerédi theorem

In arithmetic combinatorics, the Erdős–Szemerédi theorem, proven by Paul Erdős and Endre Szemerédi in 1983,[1] states that, for every finite set of real numbers, either the pairwise sums or the pairwise products of the numbers in the set form a significantly larger set. More precisely, it asserts the existence of positive constants c and such that

whenever A is a finite non-empty set of real numbers of cardinality |A|, where is the sum-set of A with itself, and .

It is possible for A + A to be of comparable size to A if A is an arithmetic progression, and it is possible for A · A to be of comparable size to A if A is a geometric progression. The Erdős–Szemerédi theorem can thus be viewed as an assertion that it is not possible for a large set to behave like an arithmetic progression and as a geometric progression simultaneously. It can also be viewed as an assertion that the real line does not contain any set resembling a finite subring or finite subfield; it is the first example of what is now known as the sum-product phenomenon, which is now known to hold in a wide variety of rings and fields, including finite fields.[2]

It was conjectured by Erdős and Szemerédi that one can take arbitrarily close to 1. The best result in this direction currently is by Solymosi,[3] who showed that one can take arbitrarily close to 1/3.

References

  1. Erdős, Paul; Szemerédi, Endre (1983), "On sums and products of integers" (PDF), Studies in Pure Mathematics. To the memory of Paul Turán, Basel: Birkhäuser Verlag, pp. 213–218, doi:10.1007/978-3-0348-5438-2_19, ISBN 978-3-7643-1288-6, MR 820223.
  2. Tao, Terence (2009), "The sum-product phenomenon in arbitrary rings", Contributions to Discrete Mathematics, 4 (2): 59–82, arXiv:0806.2497Freely accessible, MR 2592424, hdl:10515/sy5r78637.
  3. Solymosi, József (2009), "Bounding multiplicative energy by the sumset", Advances in Mathematics, 222 (2): 402–408, arXiv:0806.1040Freely accessible, doi:10.1016/j.aim.2009.04.006, MR 2538014.
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