Rising sun lemma

An illustration explaining why this lemma is called "Rising sun lemma".

In mathematical analysis, the rising sun lemma is a lemma due to Frigyes Riesz, used in the proof of the Hardy–Littlewood maximal theorem. The lemma was a precursor in one dimension of the Calderón–Zygmund lemma.^[1]

The lemma is stated as follows:^[2]

Suppose g is a real-valued continuous function on the interval [a,b] and S is the set of x in [a,b] such that there exists a y∈(x,b] with g(y) > g(x). (Note that b cannot be in S, though a may be.) Define E = S ∩ (a,b).

Then E is an open set, and it may be written as a countable union of disjoint intervals

[math]\displaystyle{ E=\bigcup_k (a_k,b_k) }[/math]

such that g(a_k) = g(b_k), unless a_k = a ∈ S for some k, in which case g(a) < g(b_k) for that one k. Furthermore, if x ∈ (a_k,b_k), then g(x) < g(b_k).

The colorful name of the lemma comes from imagining the graph of the function g as a mountainous landscape, with the sun shining horizontally from the right. The set E consist of points that are in the shadow.

Proof

We need a lemma: Suppose [c,d) ⊂ S, but d ∉ S. Then g(c) < g(d). To prove this, suppose g(c) ≥ g(d). Then g achieves its maximum on [c,d] at some point z < d. Since z ∈ S, there is a y in (z,b] with g(z) < g(y). If y ≤ d, then g would not reach its maximum on [c,d] at z. Thus, y ∈ (d,b], and g(d) ≤ g(z) < g(y). This means that d ∈ S, which is a contradiction, thus establishing the lemma.

The set E is open, so it is composed of a countable union of disjoint intervals (a_k,b_k).

It follows immediately from the lemma that g(x) < g(b_k) for x in (a_k,b_k). Since g is continuous, we must also have g(a_k) ≤ g(b_k).

If a_k ≠ a or a ∉ S, then a_k ∉ S, so g(a_k) ≥ g(b_k), for otherwise a_k ∈ S. Thus, g(a_k) = g(b_k) in these cases.

Finally, if a_k = a ∈ S, the lemma tells us that g(a) < g(b_k).

Notes

References

• Duren, Peter L. (2000), Theory of H^p Spaces, New York: Dover Publications, ISBN 0-486-41184-2 
• Garling, D.J.H. (2007), Inequalities: a journey into linear analysis, Cambridge University Press, ISBN 978-0-521-69973-0 
• Korenovskyy, A. A.; A. K. Lerner; A. M. Stokolos (November 2004), "On a multidimensional form of F. Riesz's "rising sun" lemma", Proceedings of the American Mathematical Society 133 (5): 1437–1440, doi:10.1090/S0002-9939-04-07653-1 
• Riesz, Frédéric (1932), "Sur un Théorème de Maximum de Mm. Hardy et Littlewood", Journal of the London Mathematical Society 7 (1): 10–13, doi:10.1112/jlms/s1-7.1.10, http://jlms.oxfordjournals.org/cgi/content/citation/s1-7/1/10, retrieved 2008-07-21 
• Stein, Elias (1998), "Singular integrals: The Roles of Calderón and Zygmund", Notices of the American Mathematical Society 45 (9): 1130–1140, https://www.ams.org/notices/199809/stein.pdf .
• Tao, Terence (2011), An Introduction to Measure Theory, Graduate Studies in Mathematics, 126, American Mathematical Society, ISBN 978-0821869192 
• Zygmund, Antoni (1977), Trigonometric Series. Vol. I, II (2nd ed.), Cambridge University Press, ISBN 0-521-07477-0 

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