Yu Tajima scite author profile

Yu Tajima

3Publications

5Citation Statements Received

12Citation Statements Given

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Hokkaido University

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Magnitude homology of graphs and discrete Morse theory on Asao-Izumihara complexes

Tajima¹,

Yoshinaga²

2021

Preprint

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Recently, Asao and Izumihara introduced CW-complexes whose homology groups are isomorphic to direct summands of the graph magnitude homology group. In this paper, we study the homotopy type of the CWcomplexes in connection with the diagonality of magnitude homology groups. We prove that the Asao-Izumihara complex is homotopy equivalent to a wedge of spheres for pawful graphs introduced by Y. Gu. We also formulate a slight generalization of the notion of a pawful graph and find new non-pawful diagonal graphs of diameter 2.

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Magnitude homology of graphs and discrete Morse theory on Asao–Izumihara complexes

Tajima

Yoshinaga

2023

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Causal Order Complex and Magnitude Homotopy Type of Metric Spaces

Tajima

Yoshinaga

2023

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In this paper, we construct a pointed CW complex called the magnitude homotopy type for a given metric space $X$ and a real parameter $\ell \geq 0$. This space is roughly consisting of all paths of length $\ell $ and has the reduced homology group that is isomorphic to the magnitude homology group of $X$. To construct the magnitude homotopy type, we consider the poset structure on the spacetime $X\times \mathbb{R}$ defined by causal (time- or light-like) relations. The magnitude homotopy type is defined as the quotient of the order complex of an intervals on $X\times \mathbb{R}$ by a certain subcomplex. The magnitude homotopy type gives a covariant functor from the category of metric spaces with $1$-Lipschitz maps to the category of pointed topological spaces. The magnitude homotopy type also has a “path integral” like expression for certain metric spaces. By applying discrete Morse theory to the magnitude homotopy type, we obtain a new proof of the Mayer–Vietoris-type theorem and several new results including the invariance of the magnitude under sycamore twist of finite metric spaces.

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Yu Tajima

Magnitude homology of graphs and discrete Morse theory on Asao-Izumihara complexes

Magnitude homology of graphs and discrete Morse theory on Asao–Izumihara complexes

Causal Order Complex and Magnitude Homotopy Type of Metric Spaces

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