Non-Simplicial Nerves for Two-Dimensional Categorical Structures
Abstract
The most natural notion of a simplicial nerve for a (weak) bicategory was given by Duskin, who showed that a simplicial set is isomorphic to the nerve of a -category (i.e. a bicategory with invertible -morphisms) if and only if it is a quasicategory which has unique fillers for inner horns of dimension and greater. Using Duskin's technique, we show how his nerve applies to -category functors, making it a fully faithful inclusion of -categories into simplicial sets. Then we consider analogues of this extension of Duskin's result for several different two-dimensional categorical structures, defining and analysing nerves valued in presheaf categories based on , on Segal's category , and Joyal's category . In each case, our nerves yield exactly those presheaves meeting a certain "horn-filling" condition, with unique fillers for high-dimensional horns. Generalizing our definitions to higher dimensions and relaxing this uniqueness condition, we get proposed models for several different kinds higher-categorical structures, with each of these models closely analogous to quasicategories. Of particular interest, we conjecture that our "inner-Kan -sets'' are a combinatorial model for symmetric monoidal -categories, i.e. -spaces. This is a version of the author's Ph.D. dissertation, completed 2013 at the University of California, Berkeley. Minor corrections and changes are included.
Keywords
Cite
@article{arxiv.1401.7748,
title = {Non-Simplicial Nerves for Two-Dimensional Categorical Structures},
author = {Nathaniel Watson},
journal= {arXiv preprint arXiv:1401.7748},
year = {2014}
}
Comments
247 page. Ph.D. Dissertation (2013)