English

Cartesian exponentiation and monadicity

Category Theory 2024-05-13 v2 Algebraic Topology

Abstract

An important result in quasi-category theory due to Lurie is the that cocartesian fibrations are exponentiable, in the sense that pullback along a cocartesian fibration admits a right Quillen right adjoint that moreover preserves cartesian fibrations; the same is true with the cartesian and cocartesian fibrations interchanged. To explicate this classical result, we prove that the pullback along a cocartesian fibration between quasi-categories forms the oplax colimit of its "straightening," a homotopy coherent diagram valued in quasi-categories, recovering a result first observed by Gepner, Haugseng, and Nikolaus. As an application of the exponentiation operation of a cartesian fibration by a cocartesian one, we use the Yoneda lemma to construct left and right adjoints to the forgetful functor that carries a cartesian fibration over B to its obB-indexed family of fibers, and prove that this forgetful functor is monadic and comonadic. This monadicity is then applied to construct the reflection of a cartesian fibration into a groupoidal cartesian fibration, whose fibers are Kan complexes rather than quasi-categories.

Keywords

Cite

@article{arxiv.2101.09853,
  title  = {Cartesian exponentiation and monadicity},
  author = {Emily Riehl and Dominic Verity},
  journal= {arXiv preprint arXiv:2101.09853},
  year   = {2024}
}

Comments

70 pages; a continuation of the program developed in the papers arXiv:1306.5144, arXiv:1310.8279, arXiv:1401.6247, arXiv:1506.05500, arXiv:1507.01460, arXiv:1706.10023, arXiv:1808.09834, and arXiv:1808.09835, as summarized in arXiv:1608.05314; v2 fixes typos

R2 v1 2026-06-23T22:28:34.325Z