arXiv:2407.12156 Abstract | arXiv Analytics

arXiv:2407.12156 [math.AT]Abstract References Reviews Resources

Discrete Morse theory on $ΩS^2$

Published 2024-07-16Version 1

A classical result in Morse theory is the determination of the homotopy type of the loop space of a manifold. In this paper, we study this result through the lens of discrete Morse theory. This requires a suitable simplicial model for the loop space. Here, we use Milnor's $\textrm{F}^+\textrm{K}$ construction to model the loop space of the sphere $S^2$, describe a discrete gradient on it, and identify a collection of critical cells. We also compute the action of the boundary operator in the Morse complex on these critical cells, showing that they are potential homology generators. A careful analysis allows us to recover the calculation of the first homology of $\Omega S^2$.

Comments: 15 pages, 1 figure

Categories: math.AT

Subjects: 57Q70, 55P35

Keywords: discrete morse theory, loop space, critical cells, potential homology generators, morse complex

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arXiv:2407.12156 [math.AT]Abstract References Reviews Resources

Discrete Morse theory on $ΩS^2$

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arXiv:2407.12156 [math.AT]AbstractReferencesReviewsResources

Discrete Morse theory on $ΩS^2$

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arXiv:2407.12156 [math.AT]Abstract References Reviews Resources