虚镶嵌结理论

Sandy Ganzell, A. Henrich
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引用次数: 0

摘要

结的马赛克图是由Lomanoco和Kauffman在2008年首次引入的,目的是建立一个量子结系统。从那时起,许多其他人已经探索了这些结马赛克图的结构,因为它们本身就是有趣的研究对象。结镶嵌已经被Garduno推广到虚拟结,通过包括一个额外的瓷砖类型来表示虚拟交叉。然而,还有另一种对虚拟结的解释,即表面上的结图,这启发了这项工作。通过将经典的马赛克图视为$4n$-gons并粘合这些多边形的边缘,我们可以在表面上获得可视为虚拟结的结。这些虚拟的马赛克就是我们目前研究的对象。在本文中,我们提供了一组可以在虚拟镶嵌上执行的保持结和连接类型的移动,我们证明了任何虚拟结或连接都可以表示为虚拟镶嵌,我们提供了几个与小经典和虚拟结的虚拟镶嵌数相关的计算结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Virtual mosaic knot theory
Mosaic diagrams for knots were first introduced in 2008 by Lomanoco and Kauffman for the purpose of building a quantum knot system. Since then, many others have explored the structure of these knot mosaic diagrams, as they are interesting objects of study in their own right. Knot mosaics have been generalized by Garduno to virtual knots, by including an additional tile type to represent virtual crossings. There is another interpretation of virtual knots, however, as knot diagrams on surfaces, which inspires this work. By viewing classical mosaic diagrams as $4n$-gons and gluing edges of these polygons, we obtain knots on surfaces that can be viewed as virtual knots. These virtual mosaics are our present objects of study. In this paper, we provide a set of moves that can be performed on virtual mosaics that preserve knot and link type, we show that any virtual knot or link can be represented as a virtual mosaic, and we provide several computational results related to virtual mosaic numbers for small classical and virtual knots.
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