% normally included with amsart % \usepackage{amsmath, amsthm} % font with unicode support, does not work with classicthesis % \usepackage{fontspec} % clickable tocs \usepackage{hyperref} % floating figures \usepackage{float} % for multiple cites \usepackage{cite} % fancy diagrams % \usepackage{tikz} % \usetikzlibrary{matrix, arrows, decorations} % \tikzset{node distance=2.5em, row sep=2.2em, column sep=2.7em, auto} % simple diagrams \usepackage[all,cmtip]{xy} \usepackage{graphicx} \graphicspath{ {./images/} } \usepackage{caption} \usepackage{subcaption} % for the fib arrow \usepackage{amssymb} % Some basic objects \newcommand{\N}{\mathbb{N}} % natural numbers \newcommand{\Np}{{\mathbb{N}^{>0}}} % positive numbers \newcommand{\Z}{\mathbb{Z}} % integers \newcommand{\R}{\mathbb{R}} % reals \DeclareRobustCommand{\Q}{\mathbb{Q}} % rationals \renewcommand{\k}{\mathrm{I\!k}} % default ground ring % Basic category stuff \newcommand{\cat}[1]{\mathbf{#1}} % the category of ... \newcommand{\opCat}[1]{{#1}^{\text{op}}}% opposite category \newcommand{\Hom}{\mathbf{Hom}} \newcommand{\id}{\mathbf{id}} \newcommand{\Ho}{\cat{Ho}} % Categories \newcommand{\Set}{\cat{Set}} % sets \newcommand{\Top}{\cat{Top}} % topological spaces \newcommand{\Grp}{\cat{Grp}} % groups \newcommand{\Ab}{\cat{Ab}} % abelian groups \newcommand{\DELTA}{\boldsymbol{\Delta}}% the simplicial cat \newcommand{\simplicial}[1]{\cat{s{#1}}}% simplicial objects \newcommand{\sSet}{\simplicial{\Set}} % simplicial sets \newcommand{\Mod}[1]{\cat{{#1}Mod}} % modules over a ring \newcommand{\Alg}[1]{\cat{{#1}Alg}} % algebras over a ring \newcommand{\grMod}[1]{\cat{gr\mbox{-}{#1}Mod}} % graded modules over a ring \newcommand{\grAlg}[1]{\cat{gr\mbox{-}{#1}Alg}} % graded algebras over a ring \newcommand{\dgMod}[1]{\cat{dg\mbox{-}{#1}Mod}} % differential graded modules over a ring \newcommand{\dgAlg}[1]{\cat{dg\mbox{-}{#1}Alg}} % differential graded algebras over a ring \newcommand{\Ch}[1]{\cat{Ch_{n\geq0}({#1})}} % chain complexes \newcommand{\CoCh}[1]{\cat{Ch^{n\geq0}({#1})}} % cochain complexes \DeclareRobustCommand{\DGA}{\cat{DGA}} % cochain algebras \DeclareRobustCommand{\CDGA}{\cat{CDGA}} % commutative cochain algebras \DeclareRobustCommand{\AugCDGA}{\cat{CDGA^\ast}}% augmentedcommutative cochain algebras \newcommand{\cof}{\hookrightarrow} % cofibration \newcommand{\fib}{\twoheadrightarrow} % fibration \newcommand{\we}{\tot{\simeq}} % weak equivalence % for use in xy diagrams \newcommand{\arcof}{\ar@{^{(}->}} \newcommand{\artcof}{\ar@{^{(}->}|\simeq} \newcommand{\arfib}{\ar@{->>}} \newcommand{\artfib}{\ar@{->>}|\simeq} \newcommand{\arwe}{\ar|-\simeq} \newcommand{\ariso}{\ar|-\iso} % adjunction symbol for xymatrices \newcommand{\xyadj}{\raisebox{0.2\height}{\scalebox{0.5}{$\perp$}}} % pushout and pullback for xymatrices (makes empty arrow with text) \newcommand{\xypo}{\ar@{}[dr]|(.75){\scalebox{1.2}{$\ulcorner$}}} \newcommand{\xypb}{\ar@{}[dr]|(.25){\scalebox{1.2}{$\lrcorner$}}} %\newcommand{\leftadj}{\ooalign{\hss\rightleftarrows\hss\cr\bot}} \newcommand{\leftadj}{\rightleftarrows} % Notation and operators \newcommand{\I}{\,\mid\,} % seperator in set notation \newcommand{\del}{\partial} % boundary \newcommand{\iso}{\cong} % isomorphic \newcommand{\eq}{\sim} % homotopic \newcommand{\ison}[1]{\stackrel{(#1)}{\iso}} % isos to refer to \newcommand{\refison}[1]{{\small $(#1)$}} % ref \newcommand{\tot}[1]{\xrightarrow{\,\,{#1}\,\,}} % arrow with name \newcommand{\toti}[1]{\xleftarrow{\,\,{#1}\,\,}} % left arrow with name \newcommand{\mapstot}[1]{\xmapsto{\,\,{#1}\,\,}} % mapsto with name \newcommand{\unit}{\eta} \newcommand{\counit}{\epsilon} \DeclareMathOperator*{\im}{im} \DeclareMathOperator*{\coker}{coker} \DeclareMathOperator*{\colim}{colim} \DeclareMathOperator*{\Tor}{Tor} \DeclareMathOperator*{\Ext}{Ext} \DeclareMathOperator*{\tensor}{\otimes} \DeclareMathOperator*{\bigtensor}{\bigotimes} \renewcommand{\deg}[1]{{|{#1}|}} \newcommand{\Char}[1]{char({#1})} \newcommand{\RH}{\widetilde{H}} % reduced homology \DeclareRobustCommand{\C}{\mathcal{C}} % Serre mod C class \newcommand{\Apl}[0]{{A_{PL}}} % Apl simplicial set of polynomials \newcommand{\titleCDGA}{\texorpdfstring{$\CDGA$}{CDGA}} % restriction of a function \newcommand\restr[2]{{% we make the whole thing an ordinary symbol \left.\kern-\nulldelimiterspace % automatically resize the bar with \right #1 % the function \vphantom{\big|} % pretend it's a little taller at normal size \right|_{#2} % this is the delimiter }} \theoremstyle{plain} \newtheorem{theorem}{Theorem}[section] \newtheorem{proposition}[theorem]{Proposition} \newtheorem{lemma}[theorem]{Lemma} \newtheorem{corollary}[theorem]{Corollary} \newtheorem{claim}[theorem]{Claim} \newtheorem{remark}[theorem]{Remark} \theoremstyle{definition} \newtheorem{definition}[theorem]{Definition} \newtheorem{notation}[theorem]{Notation} \newtheorem{example}[theorem]{Example} \newcommand{\EnvTemp}[4]{ \begin{#1}\label{#2:#3} {#4} \end{#1} } \newcommand{\RefTemp}[3]{{#1}~\ref{#2:#3}} \newcommand{\Theorem}{\EnvTemp{theorem}{thm}} \newcommand{\Proposition}{\EnvTemp{proposition}{prop}} \newcommand{\Lemma}{\EnvTemp{lemma}{lem}} \newcommand{\Corollary}{\EnvTemp{corollary}{cor}} \newcommand{\Claim}{\EnvTemp{claim}{clm}} \newcommand{\Remark}{\EnvTemp{remark}{rmk}} \newcommand{\Proof}[1]{\begin{proof}{#1}\end{proof}} \newcommand{\Def}{\emph} \newcommand{\Definition}{\EnvTemp{definition}{def}} \newcommand{\Notation}{\EnvTemp{notation}{not}} \newcommand{\Example}{\EnvTemp{example}{eg}} \newcommand{\TheoremRef}{\RefTemp{Theorem}{thm}} \newcommand{\LemmaRef}{\RefTemp{Lemma}{lem}} \newcommand{\CorollaryRef}{\RefTemp{Corollary}{cor}} \newcommand{\RemarkRef}{\RefTemp{Remark}{rmk}} \newcommand{\DefinitionRef}{\RefTemp{Definition}{def}} \newcommand{\Chapter}[2]{\chapter{#1}\label{chp:#2}} \newcommand{\ChapterRef}{\RefTemp{Chapter}{chp}} % headings for a table \newcommand*{\thead}[1]{\multicolumn{1}{c}{\bfseries #1}} % simple way to center an image \newcommand{\cimage}[2][]{ \begin{center} \includegraphics[#1]{#2} \end{center} } % simple way to center a diagram \newcommand{\cdiagrambase}[1]{ \begin{displaymath} \input{#1} \end{displaymath} } \newcommand{\cdiagram}[1]{ \cdiagrambase{diagrams/#1} }