Ernie Croot
Published 2007-07-10Version 1
Suppose that f : F_p^n -> [0,1] has expected value t in [p^(-n/9),1] (so, the density t can be quite low!). Furthermore, suppose that support(f) has no three-term arithmetic progressions. Then, we develop non-trivial lower bounds for f_j, which is the jth largest Fourier coefficient of f. This result is similar in spirit to that appearing in an earlier paper [1] by the author; however, in that paper the focus was on the ``small'' Fourier coefficients, whereas here the focus is on the ``large'' Fourier coefficients. Furthermore, the proof in the present paper requires much more sophisticated arguments than those of that other paper.
Comments: This is a preliminary draft. Later drafts will have more references and cleaner proofs
On distribution of three-term arithmetic progressions in sparse subsets of F_p^n
A new proof of Roth's theorem on arithmetic progressions
Avoiding a star of three-term arthmetic progressions
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