Sfo David Cruz-Uribe scite author profile

We prove that if the exponent function p(·) satisfies log-Hölder continuity conditions locally and at infinity, then the fractional maxi-We also prove a weak-type inequality corresponding to the weak (1, n/(n − α)) inequality for M α . We build upon earlier work on the Hardy-Littlewood maximal operator by Cruz-Uribe, Fiorenza and Neugebauer [3]. As a consequence of these results for M α , we show that the fractional integral operator I α satisfies the same norm inequalities. These in turn yield a generalization of the Sobolev embedding theorem to variable L p spaces.

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Weighted norm inequalities for the maximal operator on variable Lebesgue spaces

Cruz-Uribe

Fiorenza

Neugebauer

2012

Journal of Mathematical Analysis and Applications

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One and two weight norm inequalities for Riesz potentials

Cruz-Uribe¹,

Moen²

2013

Illinois J. Math.

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We consider weighted norm inequalities for the Riesz potentials I α , also referred to as fractional integral operators. First we prove mixed A p -A ∞ type estimates in the spirit of [13,15,17]. Then we prove strong and weak type inequalities in the case p < q using the so-called log bump conditions. These results complement the strong type inequalities of Pérez [30] and answer a conjecture from [3]. For both sets of results our main tool is a corona decomposition adapted to fractional averages.

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The minimal operator and the geometric maximal operator in Rⁿ

Cruz-Uribe

2001

Studia Math.

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Abstract. We prove two-weight norm inequalities in R n for the minimal operatorextending to higher dimensions results obtained by Cruz-Uribe, Neugebauer and Olesen [8] on the real line. As an application we extend to R n weighted norm inequalities for the geometric maximal operatorproved by Yin and Muckenhoupt [27]. We also give norm inequalities for the centered minimal operator, study powers of doubling weights and give sufficient conditions for the geometric maximal operator to be equal to the closely related limiting operator M * 0 f = lim r→0 M (|f | r )

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Sharp weighted estimates for approximating dyadic operators

Cruz-Uribe¹,

Martell²,

Pérez³

2010

ERA-MS

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We give a new proof of the sharp weighted $L^2$ inequality ||T||_{L^2(w)} \leq c [w]_{A_2} where $T$ is the Hilbert transform, a Riesz transform, the Beurling-Ahlfors operator or any operator that can be approximated by Haar shift operators. Our proof avoids the Bellman function technique and two weight norm inequalities. We use instead a recent result due to A. Lerner to estimate the oscillation of dyadic operators.Comment: To appear in the Electronic Research Announcements in Mathematical Science

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