%% Creator: Inkscape inkscape 0.92.2, www.inkscape.org %% PDF/EPS/PS + LaTeX output extension by Johan Engelen, 2010 %% Accompanies image file 'knot_complement.pdf' (pdf, eps, ps) %% %% To include the image in your LaTeX document, write %% \input{.pdf_tex} %% instead of %% \includegraphics{.pdf} %% To scale the image, write %% \def\svgwidth{} %% \input{.pdf_tex} %% instead of %% \includegraphics[width=]{.pdf} %% %% Images with a different path to the parent latex file can %% be accessed with the `import' package (which may need to be %% installed) using %% \usepackage{import} %% in the preamble, and then including the image with %% \import{}{.pdf_tex} %% Alternatively, one can specify %% \graphicspath{{/}} %% %% For more information, please see info/svg-inkscape on CTAN: %% http://tug.ctan.org/tex-archive/info/svg-inkscape %% \begingroup% \makeatletter% \providecommand\color[2][]{% \errmessage{(Inkscape) Color is used for the text in Inkscape, but the package 'color.sty' is not loaded}% \renewcommand\color[2][]{}% }% \providecommand\transparent[1]{% \errmessage{(Inkscape) Transparency is used (non-zero) for the text in Inkscape, but the package 'transparent.sty' is not loaded}% \renewcommand\transparent[1]{}% }% \providecommand\rotatebox[2]{#2}% \ifx\svgwidth\undefined% \setlength{\unitlength}{1725.07393424bp}% \ifx\svgscale\undefined% \relax% \else% \setlength{\unitlength}{\unitlength * \real{\svgscale}}% \fi% \else% \setlength{\unitlength}{\svgwidth}% \fi% \global\let\svgwidth\undefined% \global\let\svgscale\undefined% \makeatother% \begin{picture}(1,0.66258733)% \put(0,0){\includegraphics[width=\unitlength,page=1]{knot_complement.pdf}}% \put(-0.01227477,0.64110885){\color[rgb]{0,0,0}\makebox(0,0)[lt]{\begin{minipage}{0.36188263\unitlength}\raggedright \end{minipage}}}% \put(1.95087091,1.07582686){\color[rgb]{0,0,0}\makebox(0,0)[lt]{\begin{minipage}{1.36774537\unitlength}\raggedright \end{minipage}}}% \put(0,0){\includegraphics[width=\unitlength,page=2]{knot_complement.pdf}}% \put(0.64135944,0.10337544){\color[rgb]{0,0,0}\makebox(0,0)[lt]{\begin{minipage}{0.48923401\unitlength}\raggedright \shortstack{$\Lk(\alpha_j, a_i) = \delta_ij$}\end{minipage}}}% \put(0.71869386,0.2853112){\color[rgb]{0,0,0}\makebox(0,0)[lt]{\begin{minipage}{0.30566784\unitlength}\raggedright \shortstack{$a_1, \dots, a_n$ - generators of $H_1(S)$}\end{minipage}}}% \put(0,0){\includegraphics[width=\unitlength,page=3]{knot_complement.pdf}}% \put(0.22299352,0.32899579){\color[rgb]{1,0,0}\makebox(0,0)[lt]{\begin{minipage}{0.085914\unitlength}\raggedright $K$\end{minipage}}}% \put(0.3165171,0.48250877){\color[rgb]{0,0,0}\makebox(0,0)[lt]{\begin{minipage}{0.10894069\unitlength}\raggedright $N$\end{minipage}}}% \put(0.48505125,0.66476096){\color[rgb]{0,0,0}\makebox(0,0)[lt]{\begin{minipage}{0.39877356\unitlength}\raggedright \shortstack{$\alpha_1, \dots, \alpha_n$ - dual generators of $H_1(N)$}\end{minipage}}}% \put(0.789951,0.31913458){\color[rgb]{0,0,0}\makebox(0,0)[lt]{\begin{minipage}{0.10894069\unitlength}\raggedright $S$\end{minipage}}}% \put(0.30627525,0.40285468){\color[rgb]{1,0,0}\makebox(0,0)[lt]{\begin{minipage}{0.1131259\unitlength}\raggedright \shortstack{$\Sigma \times (-1, 1)$}\end{minipage}}}% \put(0.79012528,-1.43343974){\color[rgb]{0,0,0}\makebox(0,0)[lt]{\begin{minipage}{0.08299426\unitlength}\raggedright \end{minipage}}}% \end{picture}% \endgroup%