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[phys/poster_lattice14.git] / poster_lattice14.tex
1
2 \documentclass[portrait,a0]{a0poster}
3 %
4 \usepackage{etex}
5
6 \usepackage{color,colortbl,times,graphicx,multicol}
7 \usepackage{psboxit,epsfig,wrapfig,boxedminipage}
8 \usepackage[absolute]{textpos}
9 \usepackage{subfigure}
10 \usepackage{tikz,slashed}
11 \usepackage{enumitem}
12 \usepackage{multirow}
13 \usepackage{caption}
14 \renewcommand{\familydefault}{\sfdefault}
15
16 \usepackage{amsfonts}
17
18 \color{black}
19
20 %some mathpackages
21 \usepackage[intlimits]{amsmath}
22 \usepackage{amssymb}
23 % \usepackage{bbm}
24 \usepackage{mathrsfs}
25 % \usepackage{dsfont}
26 %allg. Symbole
27 \usepackage{wasysym}
28 %float figures
29 \usepackage{wrapfig}
30 \usepackage{url}
31 \usepackage[tight]{units}
32 \usepackage{ctable}
33
34 %\setlength{\textheight}{110.32cm}
35 \setlength{\textheight}{116.32cm}
36 \setlength{\textwidth}{76.96cm}
37 \setlength{\voffset}{-20mm}
38 \setlength{\hoffset}{-40mm}
39 %\setlength{\oddsidemargin}{5cm}
40 \setlength{\oddsidemargin}{5.5cm}
41
42 \setlength{\parindent}{0cm}
43
44 \newlength{\agrheight}
45 \newlength{\agrdoubleheight}
46 \setlength{\agrheight}{11cm}
47 \setlength{\agrdoubleheight}{18cm}
48
49 \newlength{\nontextsep}
50 \setlength{\nontextsep}{1cm}
51 \newlength{\agrsep}
52 \setlength{\agrsep}{2cm}
53 \newlength{\agrdoublesep}
54 \setlength{\agrdoublesep}{2cm}
55
56 % separation between columns
57 \setlength{\columnsep}{1.5cm}
58
59
60 % user defined commands
61 % own commands
62 \newcommand{\eq}[1]{(\ref{#1})}
63 \newcommand{\fig}[1]{Fig.~{\ref{#1}}}
64 \newcommand{\FC}{\;,}
65 \newcommand{\FD}{\;.}
66 \newcommand{\RD}[1]{{\mathrm{red}(#1)}}
67 \newcommand{\RDH}[1]{{\mathrm{red5}(#1)}}
68 \newcommand{\LM}[1]{{\mathrm{lm}(#1)}}
69 \newcommand{\LMH}[1]{{\mathrm{lm5}(#1)}}
70 \newcommand{\SU}[1]{\mathrm{SU}(#1)}
71 \newcommand{\U}[1]{\mathrm{U}(#1)}
72 \newcommand{\dbar}{\overline{d}}
73 \newcommand{\ubar}{\overline{u}}
74
75 \definecolor{WildStrawberry}{cmyk}{0,0.96,0.39,0} % important phrases
76 \definecolor{CornflowerBlue}{cmyk}{0.65,0.13,0,0.4} % accentuation2
77 \definecolor{CornflowerBlueDark}{cmyk}{0.65,0.13,0,0.6} % structure
78 \definecolor{CadetBlue}{cmyk}{0.62,0.57,0.23,0} % gluons
79 \definecolor{Peach}{cmyk}{0,0.70,0.70,0.35} % ghosts
80 \definecolor{BurntOrange}{cmyk}{0,0.51,1,0} % gh-g vertices
81 \definecolor{Red}{cmyk}{0,1,1,0} % integral measure
82 \definecolor{SkyBlue}{cmyk}{0.62,0,0.12,0.3} % IR exponent
83
84 \definecolor{kfug-yellow}{rgb}{1 0.85 0}
85
86 \definecolor{Blue}{cmyk}{1,1,0,0} 
87 \definecolor{Red}{cmyk}{0,1,1,0} 
88
89 \renewcommand{\refname}{\vspace{-1.5cm}}
90
91 \renewcommand\footnoterule{}
92 \renewcommand{\thefootnote}{\fnsymbol{footnote}}
93
94 %\usepackage{showframe}
95
96 \setlength{\parindent}{0em}             % Absatzeinrueckung erste Zeile
97 \setlength{\parskip}{0em}                       % Absatzzwischenraum
98
99 \renewcommand{\baselinestretch}{1.1}
100
101
102
103
104 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
105 %%%%%%%%%%%%%%%%%%%%%%% document %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
106 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
107
108 \begin{document}
109
110
111 \noindent
112 \hspace*{-36mm}
113 \includegraphics[scale=1.01,clip]{./hintergrund}
114
115
116 \vspace*{-1140mm}
117
118 \vspace{-45mm}
119 % \hfill \includegraphics[width=.1\textwidth]{../../figures/oeaw_logo}
120 \hfill 
121 \includegraphics[width=.2\textwidth]{./fwf-logo}
122 \hspace{-30mm}
123 %\vspace{-40mm}
124
125 %% Titel
126 \vspace*{10mm}
127 \begin{center}
128 \fcolorbox{white}{white}
129 {
130   \begin{minipage}[b]{400mm}
131     \begin{center}
132       \vspace*{10mm}
133        \Huge{\sf
134         \textcolor{cyan}{\bf Condensation in two flavor scalar electrodynamics with non-degenerate quark masses}}\\[7mm]
135         \Large{\bf{Alexander Schmidt} \sf{, Philippe de Forcrand, Christof Gattringer} \\ \sf{\large University of Graz}}\\\vspace{-1cm}
136     \end{center}
137    \vspace*{1cm}
138   \end{minipage}
139 }
140 \end{center}
141
142
143 \vspace{1.5cm}
144
145 %%%%%%%%%%%%%%%%%%%%%%% 2 columns %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
146 \begin{multicols}{2}
147
148 %%%%%%%%%%%%%%%%%%%%%%%%%% Chapter %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
149 % \fcolorbox{black}{kfug-yellow}
150 % {
151 %   \begin{minipage}[b]{350mm}
152 %     \begin{center}
153 %       \vspace*{7mm}
154 %       \large \centering{\textcolor{black}{\LARGE\sf \bf{U(1) Lattice Gauge-Higgs Model}}}
155 %     \end{center}
156 %     \vspace*{1mm}
157 %   \end{minipage}
158 % }
159
160 \large \centering{\textcolor{cyan}{\LARGE\sf Action}}
161
162 \vspace{1.0cm}
163
164 \begin{minipage}[b]{350mm}
165
166   The {\bf continuum action} of scalar electrodynamics is given by
167   \begin{equation}
168     S = \int{d^4x} \left(\frac{1}{4} |F_{\mu \nu}|^2 + |(\partial_\mu + ieA_\mu)\phi|^2 + m^2(\phi^* \phi) + \lambda(\phi^* \phi)^2\right) \quad , 
169   \end{equation}
170   where $e$ is the gauge coupling, $m$ the mass of the complex scalar $\phi$ and $\lambda$ the Higgs coupling constant.
171
172   \vspace{1cm}
173
174   In the conventional notation the {\bf lattice action} is given by (the lattice constant is set to $a=1$)
175   \begin{eqnarray}
176     S &=& S_G[U] + S_H[U,\phi] \label{latac} \\ \nonumber \\
177     S_G &=& -\beta \sum_{x,\nu < \rho} \Re{\left(U_{\nu\rho}(x)\right)}, \quad \beta=\frac{1}{2e^2} \nonumber \\ \nonumber \\
178     S_H &=& \sum_x \left[- \frac{1}{2} \sum_{\mu=1}^4 \left( \phi(x)^* U_\mu(x) \phi(x+\hat{\mu}) + \phi(x)^* U_\mu(x-\hat{\mu})^*\phi(x-\hat{\mu})\right) \right . \nonumber \\ 
179     && \quad\quad\;\, + \left . \kappa \phi(x)^*\phi(x) + \lambda\left(\phi(x)^*\phi(x)\right)^2 \right], \quad \kappa = \frac{m^2+8}{2} \nonumber \quad . \nonumber
180   \end{eqnarray} 
181
182 % \begin{wrapfigure}{r}{0.5\textwidth}
183 %   \begin{center}
184 %               \includegraphics[width=0.49\columnwidth]{sine}
185 %   \end{center}
186 %   \caption{This is the sine function.}\label{fig1}
187 % \end{wrapfigure}
188
189 \vspace{-24pt}
190 \end{minipage}
191 \vspace{2.0cm}
192
193 %%%%%%%%%%%%%%%%%%%%%%%%%% Acknowledgments %%%%%%%%%%%%%%%%%%%%%%%%%%%%
194
195 \hrule
196 \vspace{1.0cm}
197 \large \centering{\textcolor{cyan}{\Large\sf Acknowledgments}}
198
199 \vspace{1.0cm}
200
201 \begin{minipage}[b]{350mm}
202 This work was supported by the Austrian Science Fund, FWF, through the Doctoral
203 Program on {\it Hadrons in Vacuum, Nuclei, and Stars} (FWF DK W1203-N16).
204 \end{minipage}
205
206 %%%%%%%%%%%%%%%%%%%%%%%%%% References %%%%%%%%%%%%%%%%%%%%%%%%%%%%
207
208 %\hrule
209 \vspace{1.7cm}
210 \large \centering{\textcolor{cyan}{\Large\sf References}}
211
212 \vspace{1.0cm}
213
214 \begin{minipage}[b]{350mm}
215     \begin{multicols}{2}
216
217 %\hrulefill
218 \vspace{-8cm}
219 \footnotesize
220 % \bibliographystyle{h-physrev}
221 % \bibliography{lgt.bib}
222 \vspace{-3cm}
223
224         \end{multicols}\vspace{-24pt}
225 \end{minipage}
226
227 \end{multicols}
228 \end{document}
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