Quillen-Segal objects and structures: an overview

Abstract: Let $\mathscr{M}$ be a combinatorial and left proper model category, possibly with a monoidal structure. If $\mathscr{O}$ is either a monad on $\mathscr{M}$ or an operad enriched over $\mathscr{M}$, define a QS-algebra in $\mathscr{M}$ to be a weak equivalence $\mathscr{F}: s(\mathscr{F}) \xrightarrow{\sim}t(\mathscr{F})$ such that the target $t(\mathscr{F})$ is an $\mathscr{O}$-algebra in the usual sense. A classical $\mathscr{O}$-algebra is a QS-algebra supported by an isomorphism $\mathscr{F}$. A QS-structure $\mathscr{F}$ is also a weak equivalence such that $t(\mathscr{F})$ has a structure, e.g, Hodge, twistorial, schematic, sheaf, etc. We build a homotopy theory of these objects and compare it with that of usual $\mathscr{O}$-algebras/structures. Our results rely on Smith's theorem on left Bousfield localization for combinatorial and left proper model categories. These ideas are derived from the theory of co-Segal algebras and categories.