Master thesis on Rational Homotopy Theory https://github.com/Jaxan/Rational-Homotopy-Theory
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
This repo is archived. You can view files and clone it, but cannot push or open issues/pull-requests.
 
 

61 lines
2.3 KiB

\documentclass[a4paper, 12pt]{amsart}
\input{style}
\input{preamble}
\title{Rational Homotopy Theory}
\author{Joshua Moerman}
\begin{document}
\maketitle
{\bf \today}
\section*{Contents}
\tableofcontents
\section*{Preliminaries}
We assume the reader is familiar with category theory, basics from algebraic topology and the basics of simplicial sets. Some knowledge about differential graded algebra (or homological algebra) and model categories is assumed, but the reader may review this in the appendices.
Some notation:
\begin{itemize}
\item $\k$ will denote an arbitrary commutative ring (or field, if indicated at the start of a section).
\item $\cat{C}$ will denote an arbitrary category.
\item $\cat{0}$ (resp. $\cat{1}$) will denote the initial (resp. final) objects in a category $\cat{C}$.
\item $\Hom_\cat{C}(A, B)$ will denote the set of maps from $A$ to $B$ in the category $\cat{C}$. We may leave out the subscript $\cat{C}$.
\end{itemize}
Some categories:
\begin{itemize}
\item $\Top$: category of topological spaces and continuos maps.
\item $\Ab$: category of abelian groups and group homomorphisms.
\item $\DELTA$: category of simplices (i.e. finite, non-empty ordinals) and order preserving maps.
\item $\sSet$: category of simplicial sets and simplicial maps (more generally we have the category of simplicial objects, $\cat{sC}$, for any category $\cat{C}$).
\item $\Ch{\k}, \CoCh{\k}$: category of non-negatively graded chain (resp. cochain) complexes and chain maps.
\item $\DGA_\k$: category of non-negatively differential graded algebras over $\k$ (these are cochain complexes with a multiplication) and graded algebra maps. As a shorthand we will refer to such an object as \emph{dga}.
\item $\CDGA_\k$: the full subcategory of $\DGA_\k$ of commutative dga's (cdga's).
\end{itemize}
\newcommand{\myinput}[1]{\include{#1}}
\addtocontents{toc}{\protect\setcounter{tocdepth}{2}}
\myinput{notes/Basics}
\myinput{notes/Serre}
\myinput{chapters/Homotopy_Theory_CDGA}
\myinput{chapters/Polynomial_Forms}
\myinput{notes/Minimal_Models}
\myinput{notes/A_K_Quillen_Pair}
\addtocontents{toc}{\protect\setcounter{tocdepth}{1}}
\begin{appendices}
\input{notes/Algebra}
\input{notes/Free_CDGA}
\include{notes/Model_Categories}
\end{appendices}
% \listoftodos
\bibliographystyle{alpha}
\bibliography{references}
\end{document}