Special generic maps into ${\mathbb{R}}^5$ on closed and simply-connected manifolds and information on the cohomology of the manifolds

TL;DR

This paper explores the cohomology of closed, simply-connected manifolds admitting special generic maps into ${ m f R}^5$, providing new restrictions on their cohomology rings through advanced topological investigations.

Contribution

It introduces new restrictions on the cohomology rings of manifolds admitting special generic maps into ${ m f R}^5$, extending previous studies to higher-dimensional cases.

Findings

New restrictions on cohomology rings of manifolds with special generic maps into ${ m f R}^5$

Extended understanding of cohomological properties in higher dimensions

Advancement of topological methods for analyzing special generic maps

Abstract

Morse functions with exactly two singular points on spheres and canonical projections of spheres belong to the class of a certain good class of smooth maps: special generic maps. We mainly investigate information on cohomology of closed and simply-connected manifolds admitting such maps into the $5$-dimensional Euclidean spaces by investigating the embedded curves and submanifolds and their preimages. Studies on homology groups for ones into the Euclidean spaces (whose dimensions are lower than $5$ in most cases) have been pioneered by Saeki and Sakuma since 1990s and later by Nishioka and Wrazidlo since 2010s. Recently the author has started pioneering studies on the cohomology for cases where the dimensions of the Euclidean spaces may not be lower than $5$. Our new cases are difficult due to the situation that the dimensions of manifolds we consider are higher. Previously, we have found several restrictions on the cohomology rings. We present new restrictions by new investigations.