\relax \providecommand\hyper@newdestlabel[2]{} \providecommand\HyperFirstAtBeginDocument{\AtBeginDocument} \HyperFirstAtBeginDocument{\ifx\hyper@anchor\@undefined \global\let\oldcontentsline\contentsline \gdef\contentsline#1#2#3#4{\oldcontentsline{#1}{#2}{#3}} \global\let\oldnewlabel\newlabel \gdef\newlabel#1#2{\newlabelxx{#1}#2} \gdef\newlabelxx#1#2#3#4#5#6{\oldnewlabel{#1}{{#2}{#3}}} \AtEndDocument{\ifx\hyper@anchor\@undefined \let\contentsline\oldcontentsline \let\newlabel\oldnewlabel \fi} \fi} \global\let\hyper@last\relax \gdef\HyperFirstAtBeginDocument#1{#1} \providecommand\HyField@AuxAddToFields[1]{} \providecommand\HyField@AuxAddToCoFields[2]{} \citation{Self} \@writefile{brf}{\backcite{Self}{{1}{(document)}{Doc-Start}}} \@writefile{toc}{\contentsline {section}{\numberline {1}Introduction}{1}{section.1}\protected@file@percent } \citation{AudouxMeilhan:PeripheralSystems} \citation{Enriquez:UniversalAlgebras} \citation{Enriquez:QuantizationFunctors} \@writefile{lof}{\contentsline {figure}{\numberline {1}{\ignorespaces The tangle diagram (A) is OU as strand 1 is all ``over'' (so it has an empty ``U'' part) and strand 2 is all ``under'' (so it has an empty ``O'' part). The tangle diagram (B) is not OU: strand 1 is O then U, but strand 2 is U then O. Yet the tangle represented by (B) is OU because it is also represented by (C), which is OU. The diagram (D) is again OU; which familiar tangle does it represent? }}{2}{figure.1}\protected@file@percent } \newlabel{fig:OUExamples}{{1}{2}{The tangle diagram (A) is OU as strand 1 is all ``over'' (so it has an empty ``U'' part) and strand 2 is all ``under'' (so it has an empty ``O'' part). The tangle diagram (B) is not OU: strand 1 is O then U, but strand 2 is U then O. Yet the tangle represented by (B) is OU because it is also represented by (C), which is OU. The diagram (D) is again OU; which familiar tangle does it represent?}{figure.1}{}} \@writefile{brf}{\backcite{AudouxMeilhan:PeripheralSystems}{{2}{1}{figure.1}}} \@writefile{brf}{\backcite{Enriquez:UniversalAlgebras, Enriquez:QuantizationFunctors}{{2}{1}{figure.1}}} \citation{AudoxBellingeriMeilhanWagner:WeldedStringLinks} \citation{AudouxMeilhan:PeripheralSystems} \@writefile{toc}{\contentsline {section}{\numberline {2}OU Tangles and Gliding}{3}{section.2}\protected@file@percent } \newlabel{sec:Gliding}{{2}{3}{OU Tangles and Gliding}{section.2}{}} \newlabel{def:OU}{{2.1}{3}{OU Tangles and Gliding}{theorem.2.1}{}} \@writefile{brf}{\backcite{AudoxBellingeriMeilhanWagner:WeldedStringLinks}{{3}{2.1}{theorem.2.1}}} \@writefile{brf}{\backcite{AudouxMeilhan:PeripheralSystems}{{3}{2.1}{theorem.2.1}}} \newlabel{fhm:every}{{2.1}{3}{Gliding}{equation.2.1}{}} \@writefile{lof}{\contentsline {figure}{\numberline {2}{\ignorespaces Glide moves between two crossings and bulk glide moves.}}{4}{figure.2}\protected@file@percent } \newlabel{fig:Gliding}{{2}{4}{Glide moves between two crossings and bulk glide moves}{figure.2}{}} \newlabel{for:KnotsTrivial}{{2.2}{4}{OU Tangles and Gliding}{equation.2.2}{}} \newlabel{disc:froofs1}{{2.3}{4}{OU Tangles and Gliding}{equation.2.3}{}} \newlabel{disc:Options}{{2.4}{4}{OU Tangles and Gliding}{equation.2.4}{}} \@writefile{lof}{\contentsline {figure}{\numberline {3}{\ignorespaces An attempt to fix a non-OU tangle diagram. In each step we use a single glide move to fix the first UO sequence encountered on strand 1 (we mark it with a $\bullet $), but things get progressively more complicated. The O/U sequences below the diagrams are listed from the perspective of strand 1. }}{5}{figure.3}\protected@file@percent } \newlabel{fig:swirls}{{3}{5}{An attempt to fix a non-OU tangle diagram. In each step we use a single glide move to fix the first UO sequence encountered on strand 1 (we mark it with a $\bullet $), but things get progressively more complicated. The O/U sequences below the diagrams are listed from the perspective of strand 1}{figure.3}{}} \@writefile{toc}{\contentsline {section}{\numberline {3}The Classical Case}{5}{section.3}\protected@file@percent } \newlabel{sec:classical}{{3}{5}{The Classical Case}{section.3}{}} \pp@spagectr{FN@totalid}{1}{1}{5} \newlabel{exa:acyclic}{{3.2}{6}{The Classical Case}{theorem.3.2}{}} \newlabel{thm:acyclic}{{3.3}{6}{The Classical Case}{theorem.3.3}{}} \@writefile{lof}{\contentsline {figure}{\numberline {4}{\ignorespaces Two possibilities for ``interacting'' UO intervals (each marked with a\nobreakspace {}$\bullet $ symbol).}}{6}{figure.4}\protected@file@percent } \newlabel{fig:unique}{{4}{6}{Two possibilities for ``interacting'' UO intervals (each marked with a~$\bullet $ symbol)}{figure.4}{}} \newlabel{cor:GammaIso}{{3.6}{7}{The Classical Case}{theorem.3.6}{}} \@writefile{lof}{\contentsline {figure}{\numberline {5}{\ignorespaces R1 and R2 moves ``commute'' with glides (A), or they make glides redundant (B), (C).}}{7}{figure.5}\protected@file@percent } \newlabel{fig:R1R2}{{5}{7}{R1 and R2 moves ``commute'' with glides (A), or they make glides redundant (B), (C)}{figure.5}{}} \newlabel{cor:actions}{{3.7}{7}{The Classical Case}{theorem.3.7}{}} \citation{BirmanBrendle:BraidsSurvey} \newlabel{thm:iso}{{3.8}{8}{Classical Isomorphism}{theorem.3.8}{}} \@writefile{lof}{\contentsline {figure}{\numberline {6}{\ignorespaces Stirring a pool of tahini sauce garnished with parsley lines using a braid whisk.}}{8}{figure.6}\protected@file@percent } \newlabel{fig:stirring}{{6}{8}{Stirring a pool of tahini sauce garnished with parsley lines using a braid whisk}{figure.6}{}} \pp@spagectr{FN@totalid}{2}{1}{9} \@writefile{lof}{\contentsline {figure}{\numberline {7}{\ignorespaces Stirring is gliding.}}{9}{figure.7}\protected@file@percent } \newlabel{fig:StirringIsGliding}{{7}{9}{Stirring is gliding}{figure.7}{}} \@writefile{lof}{\contentsline {figure}{\numberline {8}{\ignorespaces The map $\Lambda $ turning an OU tangle into a braid.}}{9}{figure.8}\protected@file@percent } \newlabel{fig:ReverseGamma}{{8}{9}{The map $\Lambda $ turning an OU tangle into a braid}{figure.8}{}} \@writefile{brf}{\backcite{BirmanBrendle:BraidsSurvey}{{9}{b}{figure.6}}} \citation{Kauffman:VirtualKnotTheory} \citation{Kauffman:RotationalVirtualKnots} \citation{Manturov:VirtualKnots} \pp@spagectr{FN@totalid}{3}{1}{10} \newlabel{cor:braids}{{3.9}{10}{The Classical Case}{theorem.3.9}{}} \newlabel{cor:cOUisBraids}{{3.10}{10}{The Classical Case}{theorem.3.10}{}} \@writefile{toc}{\contentsline {section}{\numberline {4}The Virtual Case}{10}{section.4}\protected@file@percent } \newlabel{sec:virtual}{{4}{10}{The Virtual Case}{section.4}{}} \@writefile{brf}{\backcite{Kauffman:VirtualKnotTheory, Kauffman:RotationalVirtualKnots, Manturov:VirtualKnots}{{10}{4}{section.4}}} \@writefile{lof}{\contentsline {figure}{\numberline {9}{\ignorespaces A 3-crossing knot and a 2-crossing virtual knot, a 3-crossing braid and a 2-crossing virtual braid, and a 3-crossing tangle and a 2-crossing virtual tangle. }}{10}{figure.9}\protected@file@percent } \newlabel{fig:vexamples}{{9}{10}{A 3-crossing knot and a 2-crossing virtual knot, a 3-crossing braid and a 2-crossing virtual braid, and a 3-crossing tangle and a 2-crossing virtual tangle}{figure.9}{}} \citation{Talk:GvI} \citation{Chterental:VBandVCD} \citation{Chterental:Thesis} \pp@spagectr{FN@totalid}{4}{1}{11} \@writefile{brf}{\backcite{Talk:GvI}{{11}{d}{figure.9}}} \citation{Chterental:VBandVCD} \citation{Chterental:Thesis} \citation{Chterental:VBandVCD} \citation{Chterental:Thesis} \citation{GodelleParis:WordProblems} \citation{BellingeriCisnerosParis:WordProblem} \citation{Chterental:VBandVCD} \citation{Chterental:Thesis} \citation{Chterental:VBandVCD} \citation{Chterental:Thesis} \@writefile{brf}{\backcite{Chterental:VBandVCD, Chterental:Thesis}{{12}{4}{figure.9}}} \newlabel{thm:vinj}{{4.1}{12}{The Virtual Case}{theorem.4.1}{}} \@writefile{brf}{\backcite{Chterental:VBandVCD, Chterental:Thesis}{{12}{4.1}{theorem.4.1}}} \newlabel{cor:vbraids}{{4.2}{12}{The Virtual Case}{theorem.4.2}{}} \@writefile{brf}{\backcite{Chterental:VBandVCD, Chterental:Thesis}{{12}{4.2}{theorem.4.2}}} \pp@spagectr{FN@totalid}{5}{1}{12} \@writefile{brf}{\backcite{Chterental:VBandVCD, Chterental:Thesis}{{12}{4.3}{theorem.4.3}}} \@writefile{brf}{\backcite{Chterental:VBandVCD, Chterental:Thesis}{{12}{4.4}{theorem.4.4}}} \newlabel{disc:plan}{{4.1}{12}{The Virtual Case}{equation.4.1}{}} \newlabel{exa:indivisible}{{4.6}{12}{The Virtual Case}{theorem.4.6}{}} \@writefile{brf}{\backcite{GodelleParis:WordProblems, BellingeriCisnerosParis:WordProblem}{{12}{e}{theorem.4.2}}} \newlabel{exa:GarsideHexagon}{{4.7}{13}{The Virtual Case}{theorem.4.7}{}} \newlabel{exa:CinnamonRolls}{{4.8}{13}{The Virtual Case}{theorem.4.8}{}} \newlabel{eq:CinnamonRolls}{{4.2}{13}{The Virtual Case}{equation.4.2}{}} \@writefile{lof}{\contentsline {figure}{\numberline {10}{\ignorespaces The 3-twist, 4-twist, and 5-twist braids, and their reduced OU forms the Cinnamon Roll tangles $\mathit {CR}_3$, $\mathit {CR}_4$, and $\mathit {CR}_5$. The equivalence of the twist braids with their respective cinnamon rolls should be clear to anyone who has observed how a kink in a band becomes a twisted band upon tugging. The bonus cinnamon roll was purchased from \url {https://thenounproject.com/}. }}{13}{figure.10}\protected@file@percent } \newlabel{fig:CinnamonRolls}{{10}{13}{The 3-twist, 4-twist, and 5-twist braids, and their reduced OU forms the Cinnamon Roll tangles $\CR _3$, $\CR _4$, and $\CR _5$. The equivalence of the twist braids with their respective cinnamon rolls should be clear to anyone who has observed how a kink in a band becomes a twisted band upon tugging. The bonus cinnamon roll was purchased from \url {https://thenounproject.com/}}{figure.10}{}} \newlabel{exa:SCR}{{4.9}{13}{The Virtual Case}{theorem.4.9}{}} \newlabel{eq:SCRBraids1}{{4.3}{14}{The Virtual Case}{equation.4.3}{}} \pp@spagectr{FN@totalid}{6}{1}{14} \@writefile{lof}{\contentsline {figure}{\numberline {11}{\ignorespaces A slashed cinnamon roll and its quotients down to the identity.}}{14}{figure.11}\protected@file@percent } \newlabel{fig:SCR}{{11}{14}{A slashed cinnamon roll and its quotients down to the identity}{figure.11}{}} \newlabel{disc:divquo}{{4.4}{14}{The Virtual Case}{equation.4.4}{}} \pp@spagectr{FN@totalid}{7}{1}{14} \@writefile{lof}{\contentsline {figure}{\numberline {12}{\ignorespaces Everything we need to know about divisibility and quotients.}}{15}{figure.12}\protected@file@percent } \newlabel{fig:divquo}{{12}{15}{Everything we need to know about divisibility and quotients}{figure.12}{}} \citation{Bergman:Diamond} \citation{Sapir:CombinatorialAlgebra} \citation{Smolka:Confluence} \pp@spagectr{FN@totalid}{8}{1}{16} \newlabel{lem:divquo}{{4.10}{16}{Division}{theorem.4.10}{}} \pp@spagectr{FN@totalid}{9}{1}{16} \@writefile{brf}{\backcite{Bergman:Diamond, Sapir:CombinatorialAlgebra, Smolka:Confluence}{{16}{4}{Item.3}}} \newlabel{def:diamond}{{4.11}{16}{The Virtual Case}{theorem.4.11}{}} \newlabel{foot:parallel}{{i}{16}{The Virtual Case}{Item.3}{}} \citation{Newman:DiamondLemma} \newlabel{lem:diamond}{{4.12}{17}{The Virtual Case}{theorem.4.12}{}} \@writefile{brf}{\backcite{Newman:DiamondLemma}{{17}{4.12}{theorem.4.12}}} \newlabel{disc:to}{{4.5}{17}{The Virtual Case}{equation.4.5}{}} \newlabel{eq:DiamondInX}{{4.6}{18}{The Virtual Case}{equation.4.6}{}} \@writefile{lof}{\contentsline {figure}{\numberline {13}{\ignorespaces Two other slashed cinnamon rolls.}}{20}{figure.13}\protected@file@percent } \newlabel{fig:Cases23}{{13}{20}{Two other slashed cinnamon rolls}{figure.13}{}} \@writefile{lof}{\contentsline {figure}{\numberline {14}{\ignorespaces The what ifs.}}{20}{figure.14}\protected@file@percent } \newlabel{fig:WhatIfs}{{14}{20}{The what ifs}{figure.14}{}} \@writefile{lof}{\contentsline {figure}{\numberline {15}{\ignorespaces Case 2 and the resulting diamond.}}{21}{figure.15}\protected@file@percent } \newlabel{fig:CaseM}{{15}{21}{Case 2 and the resulting diamond}{figure.15}{}} \@writefile{lof}{\contentsline {figure}{\numberline {16}{\ignorespaces The diamond for case 4.}}{21}{figure.16}\protected@file@percent } \newlabel{fig:Square}{{16}{21}{The diamond for case 4}{figure.16}{}} \citation{Chterental:VBandVCD} \citation{Chterental:Thesis} \@writefile{toc}{\contentsline {section}{\numberline {5}Assorted Comments}{22}{section.5}\protected@file@percent } \newlabel{sec:Assorted}{{5}{22}{Assorted Comments}{section.5}{}} \newlabel{disc:Chterental}{{5.1}{22}{Assorted Comments}{equation.5.1}{}} \@writefile{brf}{\backcite{Chterental:VBandVCD, Chterental:Thesis}{{22}{5.1}{equation.5.1}}} \pp@spagectr{FN@totalid}{10}{1}{22} \@writefile{lof}{\contentsline {figure}{\numberline {17}{\ignorespaces A Chterental Virtual Curve Diagram (VCD) and the corresponding virtual OU tangle.}}{22}{figure.17}\protected@file@percent } \newlabel{fig:VCD}{{17}{22}{A Chterental Virtual Curve Diagram (VCD) and the corresponding virtual OU tangle}{figure.17}{}} \pp@spagectr{FN@totalid}{11}{1}{23} \newlabel{rem:classical}{{5.1}{23}{Assorted Comments}{theorem.5.1}{}} \newlabel{rem:tent}{{5.2}{23}{Assorted Comments}{theorem.5.2}{}} \newlabel{rem:TwoSquares}{{5.3}{23}{Assorted Comments}{theorem.5.3}{}} \citation{Artin:TheoryOfBraids} \citation{AudoxBellingeriMeilhanWagner:UVWHomotopy} \citation{Bar-Natan:glN} \pp@spagectr{FN@totalid}{12}{1}{24} \@writefile{brf}{\backcite{Artin:TheoryOfBraids}{{24}{5.3}{theorem.5.3}}} \pp@spagectr{FN@totalid}{13}{1}{24} \@writefile{brf}{\backcite{AudoxBellingeriMeilhanWagner:UVWHomotopy}{{24}{5.3}{theorem.5.3}}} \@writefile{brf}{\backcite{Bar-Natan:glN}{{24}{5}{conjecture.5.1}}} \newlabel{disc:OUH}{{5.2}{24}{Assorted Comments}{equation.5.2}{}} \pp@spagectr{FN@totalid}{14}{1}{24} \pp@spagectr{FN@totalid}{15}{1}{24} \citation{Kauffman:RotationalVirtualKnots} \citation{Woronowicz:Solutions} \citation{MurakamiVanDerVeen:Quantized} \@writefile{lof}{\contentsline {figure}{\numberline {18}{\ignorespaces A virtual O/U tangle in $v\mathcal {OU}^2_3$ becomes a Gauss diagram becomes a universal Hopf formula representing an element of $\operatorname {Hom}(H^{\otimes 2} \to H^{\otimes 3})$. Note that the antipode $S$ is inserted on the $(-)$-marked edges of the Gauss diagram, which correspond to the negative crossings of the tangle. }}{25}{figure.18}\protected@file@percent } \newlabel{fig:HopfWords}{{18}{25}{A virtual O/U tangle in $\vcalOU ^2_3$ becomes a Gauss diagram becomes a universal Hopf formula representing an element of $\Hom (H^{\otimes 2} \to H^{\otimes 3})$. Note that the antipode $S$ is inserted on the $(-)$-marked edges of the Gauss diagram, which correspond to the negative crossings of the tangle}{figure.18}{}} \@writefile{brf}{\backcite{Kauffman:RotationalVirtualKnots}{{25}{5.4}{theorem.5.4}}} \@writefile{brf}{\backcite{Woronowicz:Solutions, MurakamiVanDerVeen:Quantized}{{25}{5.5}{theorem.5.5}}} \newlabel{rem:core}{{5.6}{25}{Assorted Comments}{theorem.5.6}{}} \newlabel{disc:EG}{{5.3}{25}{Assorted Comments}{equation.5.3}{}} \pp@spagectr{FN@totalid}{16}{1}{26} \@writefile{toc}{\contentsline {section}{\numberline {6}Some Computations}{26}{section.6}\protected@file@percent } \newlabel{sec:comp}{{6}{26}{Some Computations}{section.6}{}} \citation{Wolfram:Mathematica} \citation{Self} \@writefile{brf}{\backcite{Wolfram:Mathematica}{{27}{6}{section.6}}} \@writefile{brf}{\backcite{Self}{{27}{6}{section.6}}} \@writefile{toc}{\contentsline {subsection}{\numberline {6.1}Implementing virtual OU tangles, virtual braids, and $\mathit {Ch}$}{27}{subsection.6.1}\protected@file@percent } \@writefile{toc}{\contentsline {subsection}{\numberline {6.2}Tabulating Virtual Pure Braids}{30}{subsection.6.2}\protected@file@percent } \newlabel{ssec:VB}{{6.2}{30}{Tabulating Virtual Pure Braids}{subsection.6.2}{}} \citation{Self} \citation{Self} \citation{Epstein:WordProcessing} \citation{Bar-NatanMorrison:KnotTheory} \@writefile{brf}{\backcite{Self}{{32}{6.2}{subsection.6.2}}} \@writefile{brf}{\backcite{Self}{{32}{6.2}{subsection.6.2}}} \pp@spagectr{FN@totalid}{17}{1}{32} \@writefile{toc}{\contentsline {subsection}{\numberline {6.3}Tabulating Classical Braids}{32}{subsection.6.3}\protected@file@percent } \newlabel{ssec:CB}{{6.3}{32}{Tabulating Classical Braids}{subsection.6.3}{}} \@writefile{brf}{\backcite{Epstein:WordProcessing}{{32}{6.3}{subsection.6.3}}} \@writefile{brf}{\backcite{Bar-NatanMorrison:KnotTheory}{{32}{6.3}{subsection.6.3}}} \citation{Self} \@writefile{brf}{\backcite{Self}{{33}{6.3}{subsection.6.3}}} \@writefile{toc}{\contentsline {subsection}{\numberline {6.4}Extraction Graphs}{34}{subsection.6.4}\protected@file@percent } \newlabel{ssec:EG}{{6.4}{34}{Extraction Graphs}{subsection.6.4}{}} \citation{Self} \@writefile{toc}{\contentsline {subsection}{\numberline {6.5}Computational Complexity}{37}{subsection.6.5}\protected@file@percent } \newlabel{ssec:CC}{{6.5}{37}{Computational Complexity}{subsection.6.5}{}} \@writefile{brf}{\backcite{Self}{{37}{6.5}{subsection.6.5}}} \@writefile{toc}{\contentsline {section}{\numberline {7}There's more!}{37}{section.7}\protected@file@percent } \newlabel{sec:more}{{7}{37}{There's more!}{section.7}{}} \@writefile{toc}{\contentsline {subsection}{\numberline {7.1}Weakening the Bond}{37}{subsection.7.1}\protected@file@percent } \citation{Talk:OU} \citation{ThurstonD:Sutured} \citation{Milnor:LinkGroups} \citation{AudouxMeilhan:PeripheralSystems} \citation{AudouxMeilhan:PeripheralSystems} \citation{AudoxBellingeriMeilhanWagner:WeldedStringLinks} \@writefile{brf}{\backcite{Talk:OU}{{38}{7.1}{subsection.7.1}}} \@writefile{brf}{\backcite{ThurstonD:Sutured}{{38}{7.1}{subsection.7.1}}} \@writefile{toc}{\contentsline {subsection}{\numberline {7.2}Prior Art}{38}{subsection.7.2}\protected@file@percent } \@writefile{brf}{\backcite{Milnor:LinkGroups}{{38}{7.2}{subsection.7.2}}} \citation{KBH} \citation{KBH} \citation{WKO2} \citation{WKO3} \citation{WKO4} \citation{WKO4} \citation{Enriquez:UniversalAlgebras} \citation{Enriquez:QuantizationFunctors} \citation{Enriquez:QuantizationFunctors} \citation{WKO2} \citation{Caen} \citation{MasterClass} \citation{WKO1} \citation{EtingofKazhdan:BialgebrasI} \citation{Severa:BialgebrasRevisited} \@writefile{brf}{\backcite{AudouxMeilhan:PeripheralSystems}{{39}{7.2}{subsection.7.2}}} \@writefile{brf}{\backcite{AudouxMeilhan:PeripheralSystems}{{39}{7.2}{subsection.7.2}}} \@writefile{brf}{\backcite{AudoxBellingeriMeilhanWagner:WeldedStringLinks}{{39}{7.2}{subsection.7.2}}} \@writefile{brf}{\backcite{KBH}{{39}{7.2}{subsection.7.2}}} \@writefile{brf}{\backcite{KBH}{{39}{7.2}{subsection.7.2}}} \@writefile{brf}{\backcite{WKO2, WKO3, WKO4}{{39}{7.2}{subsection.7.2}}} \@writefile{brf}{\backcite{WKO4}{{39}{7.2}{subsection.7.2}}} \@writefile{brf}{\backcite{Enriquez:UniversalAlgebras, Enriquez:QuantizationFunctors}{{39}{7.2}{subsection.7.2}}} \@writefile{brf}{\backcite{Enriquez:QuantizationFunctors}{{39}{7.2}{subsection.7.2}}} \@writefile{brf}{\backcite{WKO2}{{39}{7.2}{subsection.7.2}}} \@writefile{brf}{\backcite{Caen, MasterClass}{{39}{7.2}{subsection.7.2}}} \@writefile{brf}{\backcite{WKO1}{{39}{7.2}{subsection.7.2}}} \@writefile{brf}{\backcite{EtingofKazhdan:BialgebrasI, Severa:BialgebrasRevisited}{{39}{7.2}{subsection.7.2}}} \@writefile{toc}{\contentsline {section}{\numberline {8}Acknowledgement}{39}{section.8}\protected@file@percent } \bibcite{Artin:TheoryOfBraids}{Ar} \bibcite{AudoxBellingeriMeilhanWagner:WeldedStringLinks}{ABMW1} \bibcite{AudoxBellingeriMeilhanWagner:UVWHomotopy}{ABMW2} \bibcite{AudouxMeilhan:PeripheralSystems}{AM} \bibcite{Bar-Natan:glN}{BN1} \bibcite{Caen}{BN2} \bibcite{MasterClass}{BN3} \bibcite{KBH}{BN4} \bibcite{Talk:OU}{BN5} \bibcite{Talk:GvI}{BN6} \bibcite{WKO4}{BN7} \bibcite{WKO1}{BD1} \bibcite{WKO2}{BD2} \bibcite{WKO3}{BD3} \bibcite{Self}{BDV} \bibcite{Bar-NatanMorrison:KnotTheory}{BM} \bibcite{BellingeriCisnerosParis:WordProblem}{BCP} \bibcite{Bergman:Diamond}{Be} \bibcite{BirmanBrendle:BraidsSurvey}{BB} \bibcite{Chterental:VBandVCD}{Ch1} \bibcite{Chterental:Thesis}{Ch2} \bibcite{Enriquez:UniversalAlgebras}{En1} \bibcite{Enriquez:QuantizationFunctors}{En2} \bibcite{Epstein:WordProcessing}{Ep} \bibcite{EtingofKazhdan:BialgebrasI}{EK} \bibcite{GodelleParis:WordProblems}{GP} \bibcite{Kauffman:VirtualKnotTheory}{Ka1} \bibcite{Kauffman:RotationalVirtualKnots}{Ka2} \bibcite{Manturov:VirtualKnots}{Ma} \bibcite{Milnor:LinkGroups}{Mi} \bibcite{MurakamiVanDerVeen:Quantized}{MV} \bibcite{Newman:DiamondLemma}{Ne} \bibcite{Sapir:CombinatorialAlgebra}{Sa} \bibcite{Severa:BialgebrasRevisited}{Se} \bibcite{Smolka:Confluence}{Sm} \bibcite{ThurstonD:Sutured}{Th} \bibcite{Wolfram:Mathematica}{Wol} \bibcite{Woronowicz:Solutions}{Wor} \newlabel{eof}{{8}{41}{Acknowledgement}{section*.1}{}}