Cousin's lemma in second-order arithmetic
Abstract
Cousin's lemma is a compactness principle that naturally arises when studying the gauge integral, a generalisation of the Lebesgue integral. We study the axiomatic strength of Cousin's lemma for various classes of functions, using Friedman and Simpson's reverse mathematics in second-order arithmetic. We prove that, over RCA0: (i) Cousin's lemma for continuous functions is equivalent to WKL0; (ii) Cousin's lemma for Baire class 1 functions is equivalent to ACA0; (iii) Cousin's lemma for Baire class 2 functions, or for Borel functions, are both equivalent to ATR0 (modulo some induction).
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