Restrictions on manifolds admitting certain explicit special-generic-like maps and construction of maps with the manifolds

TL;DR

This paper investigates the topological restrictions on manifolds that admit explicit special-generic-like maps (SGL maps), and constructs such maps for specific manifolds, extending the understanding of their structure and properties.

Contribution

It establishes strong topological restrictions on manifolds admitting explicit SGL maps and provides methods to construct these maps for certain classes of manifolds.

Findings

Manifolds with certain explicit SGL maps are topologically restricted.

Construction methods for SGL maps on connected sums of sphere products.

Topological and differentiable structure restrictions of domain manifolds.

Abstract

Special-generic-like maps or SGL maps are introduced by the author motivated by observing and investigating algebraic topological or differential topological properties of manifolds via nice smooth maps whose codimensions are negative. The present paper says that manifolds admitting certain very explicit SGL maps are topologically restricted strongly and this also constructs these maps with the manifolds explicitly. Morse functions with exactly two singular points on spheres or functions in Reeb's theorem and canonical projections of naturally embedded spheres in Euclidean spaces are generali5zed as special generic maps. Their nice global structures motivate us to study such maps and the manifolds. Manifolds represented as connected sums of the product of spheres and similar ones admit such maps in considerable cases. The topologies and the differentiable structures of the manifolds of the domains of such maps are also strongly restricted: due to Saeki and Sakuma, followed by Nishioka, Wrazidlo and the author. Respecting their nice global structures, these maps are generalized and this yields SGL maps.