Presenting the Sierpinski Gasket in Various Categories of Metric Spaces

IF 0.6 4区数学 Q3 MATHEMATICS

Applied Categorical Structures Pub Date : 2024-07-30 DOI:10.1007/s10485-024-09773-0

Jayampathy Ratnayake, Annanthakrishna Manokaran, Romaine Jayewardene, Victoria Noquez, Lawrence S. Moss

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Abstract

This paper studies presentations of the Sierpinski gasket as a final coalgebra for a functor on three categories of metric spaces with additional designated points. The three categories which we study differ on their morphisms: one uses short (non-expanding) maps, the second uses continuous maps, and the third uses Lipschitz maps. The functor in all cases is very similar to what we find in the standard presentation of the gasket as an attractor. It was previously known that the Sierpinski gasket is bilipschitz equivalent (though not isomorhpic) to the final coalgebra of this functor in the category with short maps, and that final coalgebra is obtained by taking the completion of the initial algebra. In this paper, we prove that the Sierpiniski gasket itself is the final coalgebra in the category with continuous maps, though it does not occur as the completion of the initial algebra. In the Lipschitz setting, we show that the final coalgebra for this functor does not exist.

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在各类度量空间中呈现西尔平斯基垫圈

本文研究了西尔平斯基垫圈作为具有额外指定点的三类度量空间上的一个函子的最终联合代数的呈现形式。我们研究的三个类别在形态上有所不同：一个类别使用短（非扩展）映射，第二个类别使用连续映射，第三个类别使用 Lipschitz 映射。所有情况下的函子都与我们在作为吸引子的垫圈的标准表述中发现的非常相似。此前我们已经知道，西尔平斯基垫圈与该函子在短映射范畴中的终联合代数是双唇等价的（尽管不是同构的），而该终联合代数是通过取初始代数的完备性得到的。在本文中，我们证明了西尔皮尼斯基垫圈本身就是连续映射范畴中的终联合代数，尽管它并不作为初始代数的补全出现。在 Lipschitz 环境中，我们证明了这个函子的终结代数并不存在。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Applied Categorical Structures 数学-数学

CiteScore

1.30

自引率

16.70%

发文量

审稿时长

>12 weeks

期刊介绍： Applied Categorical Structures focuses on applications of results, techniques and ideas from category theory to mathematics, physics and computer science. These include the study of topological and algebraic categories, representation theory, algebraic geometry, homological and homotopical algebra, derived and triangulated categories, categorification of (geometric) invariants, categorical investigations in mathematical physics, higher category theory and applications, categorical investigations in functional analysis, in continuous order theory and in theoretical computer science. In addition, the journal also follows the development of emerging fields in which the application of categorical methods proves to be relevant. Applied Categorical Structures publishes both carefully refereed research papers and survey papers. It promotes communication and increases the dissemination of new results and ideas among mathematicians and computer scientists who use categorical methods in their research.