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Main Authors: Di Biase, Fausto, Gratien, Haguma, Svensson, Olof
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.12679
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author Di Biase, Fausto
Gratien, Haguma
Svensson, Olof
author_facet Di Biase, Fausto
Gratien, Haguma
Svensson, Olof
contents In 1906 Fatou proved that bounded holomorphic functions on the unit disc converge a.e. on the boundary along nontangential approach regions. In 1927 Littlewood proved a negative result, i.e., that a.e. convergence fails for certain approach regions: More precisely, it fails for the rotationally invariant families of tangential approach regions that end curvilinearly at the boundary. The fact that tangential approach regions which end sequentially at the boundary may instead be very well conducive to a.e. convergence was understood more recently by W. Rudin (in 1979) and A. Nagel and E.M. Stein (in 1984), in contributions that provided additional and much needed insight, and that prompted the question of giving an a priori description of those families of tangential approach regions which end sequentially at the boundary and for which a.e. convergence fails. Our main result is the first one of this kind. Indeed, we prove the failure of a.e. convergence for a class of approach regions, introduced in this work, which we call projectively adjacent, that contains curvilinear approach regions as well as sequential ones. Our result recaptures the aforementioned theorem of Littlewood as well as some of the other theorems of that type, but its novelty lies in the fact that, while all previous negative results for tangential approach (Littlewood, 1927; Lohwater and Piranian, 1957; Aikawa, 1990-1991, and others) dealt with approach regions that either are curves or share with curves a certain topological property that excludes the possibility that they could end sequentially at the boundary, our negative result deals with a class of approach regions that contains both the curvilinear and the sequential ones. Hence we present a significant extension of the class of those families of approach regions for which a.e. convergence fails.
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publishDate 2025
record_format arxiv
spellingShingle On Tangential and Projectively Adjacent Approach Regions
Di Biase, Fausto
Gratien, Haguma
Svensson, Olof
Classical Analysis and ODEs
30H05, 30J99, 31A20
In 1906 Fatou proved that bounded holomorphic functions on the unit disc converge a.e. on the boundary along nontangential approach regions. In 1927 Littlewood proved a negative result, i.e., that a.e. convergence fails for certain approach regions: More precisely, it fails for the rotationally invariant families of tangential approach regions that end curvilinearly at the boundary. The fact that tangential approach regions which end sequentially at the boundary may instead be very well conducive to a.e. convergence was understood more recently by W. Rudin (in 1979) and A. Nagel and E.M. Stein (in 1984), in contributions that provided additional and much needed insight, and that prompted the question of giving an a priori description of those families of tangential approach regions which end sequentially at the boundary and for which a.e. convergence fails. Our main result is the first one of this kind. Indeed, we prove the failure of a.e. convergence for a class of approach regions, introduced in this work, which we call projectively adjacent, that contains curvilinear approach regions as well as sequential ones. Our result recaptures the aforementioned theorem of Littlewood as well as some of the other theorems of that type, but its novelty lies in the fact that, while all previous negative results for tangential approach (Littlewood, 1927; Lohwater and Piranian, 1957; Aikawa, 1990-1991, and others) dealt with approach regions that either are curves or share with curves a certain topological property that excludes the possibility that they could end sequentially at the boundary, our negative result deals with a class of approach regions that contains both the curvilinear and the sequential ones. Hence we present a significant extension of the class of those families of approach regions for which a.e. convergence fails.
title On Tangential and Projectively Adjacent Approach Regions
topic Classical Analysis and ODEs
30H05, 30J99, 31A20
url https://arxiv.org/abs/2511.12679