matt_papers/MWTCC03/poster.tex

%% this is my poster for the Midwest Theoretical Conference


\documentclass[10pt]{scrartcl}
%%
%
% This is a poster template with latex macros and using
% the University of Florida Logo.  For further information
% on making postscript, resizeing, and printing the poster file
% please see web site 
% http://www.phys.ufl.edu/~pjh/posters/poster_howto_UF.html
% 
% N.B. This format is cribbed from one obtained from the University
% of Karlsruhe, so some macro names and parameters are in German
% Here is a short glosary:
% Breite: width
% Hoehe: height
% Spalte: column
% Kasten: box
%
% All style files necessary are part of standard TeTeX distribution
% On the UF unix cluster you should not need to import these files
% specially, as they will be automatically located.  If you
% run on a local PC however, you will need to locate these files.
% At UF try /usr/local/TeTeX...
% 
% P. Hirschfeld 2/11/00
%
% The recommended procedure is to first generate a ``Special Format" size poster
% file, which is relatively easy to manipulate and view.  It can be
% resized later to A0 (900 x 1100 mm) full poster size, or A4 or Letter size
% as desired (see web site).  Note the large format printers currently
% in use at UF's OIR have max width of about 90cm or 3 ft., but the paper
% comes in rolls so the length is variable.  See below the specifications
% for width and height of various formats.  Default in the template is
% ``Special Format",  with 4 columns.
%%
%% 
%% Choose your poster size:
%% For printing you will later RESIZE your poster by a factor
%%        2*sqrt(2) = 2.828    (for A0)
%%        2         = 2.00     (for A1) 
%%  
%% 
%%\def\breite{452mm}     % Gives a 4.1 foot width
\def\breite{390mm}       % Special Format. 
\def\hoehe{319.2mm}      % Scaled by 2.82 this gives 110cm x 90cm 
\def\anzspalten{4}
%%
%%\def\breite{420mm}     % A3 LANDSCAPE
%%\def\hoehe{297mm}
%%\def\anzspalten{4}
%%
%% \def\breite{297mm}     % A3 PORTRAIT
%% \def\hoehe{420mm}
%% \def\anzspalten{3}
%%
%% \def\breite{210mm}     % A4 PORTRAIT
%% \def\hoehe{297mm}
%% \def\anzspalten{2}
%%
%%
%% Procedure:
%%   Generate poster.dvi with latex
%%   Check with Ghostview
%%   Make a .ps-file with ``dvips -o poster.ps poster''
%%   Scale it with poster_resize poster.ps S
%%   where S is scale factor
%%     for Special Format->A0 S= 2.828 (= 2^(3/2)))
%%     for Special Format->A1 S= 2 (= 2^(2/2)))
%% 
%% Sizes (European:)
%%   A3: 29.73 X 42.04 cm
%%   A1: 59.5 X 84.1 cm
%%   A0: 84.1 X 118.9 cm
%%   N.B. The recommended procedure is ``Special Format x 2.82"
%%   which gives 90cm x 110cm (not quite A0 dimensions).
%%
%% --------------------------------------------------------------------------
%%
%% Load the necessary packages
%% 
\usepackage{berkeley}
\usepackage[latin1]{inputenc}
\usepackage{epsf}
\usepackage{graphicx,psfrag,color,pstcol,pst-grad}
\usepackage{amsmath,amssymb}
\usepackage{latexsym}
\usepackage{calc}
\usepackage{multicol}

%% My Packages
%%\usepackage{wrapfig}

%%
%% Define the required numbers, lengths and boxes 
%%
\newsavebox{\dummybox}
\newsavebox{\spalten}
%\input psfig.sty

%%
%%
\newlength{\bgwidth}\newlength{\bgheight}
\setlength\bgheight{\hoehe} \addtolength\bgheight{-1mm}
\setlength\bgwidth{\breite} \addtolength\bgwidth{-1mm}

\newlength{\kastenwidth}

%% Set paper format
\setlength\paperheight{\hoehe}                                             
\setlength\paperwidth{\breite}
\special{papersize=\breite,\hoehe}

\topmargin -1in
\marginparsep0mm
\marginparwidth0mm
\headheight0mm
\headsep0mm


%% Minimal Margins to Make Correct Bounding Box
\setlength{\oddsidemargin}{-2.44cm}
\addtolength{\topmargin}{-3mm}
\textwidth\paperwidth
\textheight\paperheight

%%
%%
\parindent0cm
\parskip1.5ex plus0.5ex minus 0.5ex
\pagestyle{empty}


\definecolor{ndgold}{rgb}{0.87,0.82,0.59}
\definecolor{ndgold2}{rgb}{0.96,0.91,0.63}
\definecolor{ndblue}{rgb}{0,0.1875, 0.6992}
\definecolor{recoilcolor}{rgb}{1,0,0}
\definecolor{occolor}{rgb}{0,1,0}
\definecolor{pink}{rgb}{0,1,1}


\def\UberStil{\normalfont\sffamily\bfseries\large}
\def\UnterStil{\normalfont\sffamily\small}
\def\LabelStil{\normalfont\sffamily\tiny}
\def\LegStil{\normalfont\sffamily\tiny}

%%
%% Define some commands
%%
\definecolor{JG}{rgb}{0.1,0.9,0.3}

\newenvironment{kasten}{%
  \begin{lrbox}{\dummybox}%
    \begin{minipage}{0.96\linewidth}}%
    {\end{minipage}%
  \end{lrbox}%
  \raisebox{-\depth}{\psshadowbox[framearc=0.05,framesep=1em]{\usebox{\dummybox}}}\\[0.5em]}
\newenvironment{spalte}{%
  \setlength\kastenwidth{1.2\textwidth}
  \divide\kastenwidth by \anzspalten
  \begin{minipage}[t]{\kastenwidth}}{\end{minipage}\hfill}

%%\renewcommand{\emph}[1]{{\color{red}\textbf{#1}}}


\def\op#1{\hat{#1}}
\begin{document}
\bibliographystyle{plain}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%               Background                     %%%             
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

%%{\newrgbcolor{gradbegin}{0.87 0.82 0.59}%
{\newrgbcolor{gradbegin}{0.0 0.1875 0.6992}%
  \newrgbcolor{gradend}{1 1 1}%{1 1 0.5}%
  \psframe[fillstyle=gradient,gradend=gradend,%
  gradbegin=gradbegin,gradmidpoint=0.1](\bgwidth,-\bgheight)}
\vfill
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%                     Header                   %%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\hfill
\psshadowbox[fillstyle=solid,fillcolor=ndgold2]{\makebox[0.95\textwidth]{%
    \hfill
    \parbox[c]{2cm}{\includegraphics[width=8cm]{ndLogoScience1a.eps}}
    \hfill
    \parbox[c]{0.8\linewidth}{%
      \begin{center}
        \color{ndblue}
        \textbf{\Huge {A Mesoscale Model for Phospholipid Simulations}}\\[0.5em]
        \textsc{\LARGE \underline{Matthew~A.~Meineke}, and J.~Daniel~Gezelter}\\[0.3em]
        {\large Department of Chemistry and Biochemistry, University of Notre Dame, Notre Dame, IN 46556, USA\\
{\tt\ mmeineke@nd.edu}
}
      \end{center}}
\hfill}}\hfill\mbox{}\\[1.cm]
%\vspace*{1.3cm}
\begin{lrbox}{\spalten}
  \parbox[t][\textheight]{1.3\textwidth}{%
    \vspace*{0.2cm}
    \hfill
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%                 first column                 %%%             
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%


    \begin{spalte}
     \begin{kasten}
% 
%
%   This begins the first "kasten" or box
%
%
     \begin{center}
{\large{\color{red}    \underline{ABSTRACT}  } }
     \end{center}

{\color{ndblue}

A mesoscale model for phospholipids has been developed for molecular
dynamics simulations of lipid bilayers. The model makes several
simplifications to both the water and the phospholipids to reduce the
computational cost of each force evaluation. The water was represented
by the soft sticky dipole model of Ichiye \emph{et
al}.\cite{liu96:new_model,liu96:monte_carlo,chandra99:ssd_md} The
simplifications to the phospholipids included the reduction of atoms
in the tail groups to beads representing $\mbox{CH}_{2}$ and
$\mbox{CH}_{3}$ unified atoms, and the replacement of the head groups
with a single point mass containing a centrally located dipole. The
model was then used to simulate micelle and bilayer formation from a
configuration of randomly placed phospholipids which was simulated for
times in excess of 30 nanoseconds.

 }
      \end{kasten}


     \end{spalte}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%               second column                  %%%             
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
    \begin{spalte}
     
     \begin{kasten}
     \section*{2 \hspace{0.1cm} {\color{ndblue}Ima second column holder}}

        hello

     \end{kasten}
        

    \end{spalte}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%               third column                   %%%             
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
    \begin{spalte}

     \begin{kasten}
     \section*{3 \hspace{0.1cm} {\color{ndblue}Ima third column holder}}

        hello

     \end{kasten}


    \end{spalte}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%               fourth column                  %%%             
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
    \begin{spalte}


     \begin{kasten}
        \begin{center}  
        {\large{\color{red} \underline{Acknowledgments}}}
     \end{center}

The authors would like to acknowledge Charles Vardeman, Christopher
Fennell, and Teng lin for their contributions to the simulation
engine. MAM would also like to extend a special thank you to Charles
Vardeman for his help with the TeX formatting of this
poster. Computaion time was provided on the Bunch-of-Boxes (B.o.B.)
cluster under NSF grant DMR 00 79647. The authors acknowledge support
under NSF grant CHE-0134881.

     \end{kasten}

\vspace{0.5cm}
      \begin{kasten}
           {\small
                \bibliography{poster}
           }
   \end{kasten}
    \end{spalte}
    }
    \end{lrbox}
\resizebox*{0.98\textwidth}{!}{%
  \usebox{\spalten}}\hfill\mbox{}\vfill
\end{document}
Revision:	547
Committed:	Wed Jun 4 19:24:02 2003 UTC (22 years, 1 month ago) by mmeineke
Content type:	application/x-tex
File size:	8971 byte(s)
Log Message:	updated the logo a little as well as some of the colors
#	Content
1	%% this is my poster for the Midwest Theoretical Conference
2
3
4	\documentclass[10pt]{scrartcl}
5	%%
6	%
7	% This is a poster template with latex macros and using
8	% the University of Florida Logo. For further information
9	% on making postscript, resizeing, and printing the poster file
10	% please see web site
11	% http://www.phys.ufl.edu/~pjh/posters/poster_howto_UF.html
12	%
13	% N.B. This format is cribbed from one obtained from the University
14	% of Karlsruhe, so some macro names and parameters are in German
15	% Here is a short glosary:
16	% Breite: width
17	% Hoehe: height
18	% Spalte: column
19	% Kasten: box
20	%
21	% All style files necessary are part of standard TeTeX distribution
22	% On the UF unix cluster you should not need to import these files
23	% specially, as they will be automatically located. If you
24	% run on a local PC however, you will need to locate these files.
25	% At UF try /usr/local/TeTeX...
26	%
27	% P. Hirschfeld 2/11/00
28	%
29	% The recommended procedure is to first generate a ``Special Format" size poster
30	% file, which is relatively easy to manipulate and view. It can be
31	% resized later to A0 (900 x 1100 mm) full poster size, or A4 or Letter size
32	% as desired (see web site). Note the large format printers currently
33	% in use at UF's OIR have max width of about 90cm or 3 ft., but the paper
34	% comes in rolls so the length is variable. See below the specifications
35	% for width and height of various formats. Default in the template is
36	% ``Special Format", with 4 columns.
37	%%
38	%%
39	%% Choose your poster size:
40	%% For printing you will later RESIZE your poster by a factor
41	%% 2*sqrt(2) = 2.828 (for A0)
42	%% 2 = 2.00 (for A1)
43	%%
44	%%
45	%%\def\breite{452mm} % Gives a 4.1 foot width
46	\def\breite{390mm} % Special Format.
47	\def\hoehe{319.2mm} % Scaled by 2.82 this gives 110cm x 90cm
48	\def\anzspalten{4}
49	%%
50	%%\def\breite{420mm} % A3 LANDSCAPE
51	%%\def\hoehe{297mm}
52	%%\def\anzspalten{4}
53	%%
54	%% \def\breite{297mm} % A3 PORTRAIT
55	%% \def\hoehe{420mm}
56	%% \def\anzspalten{3}
57	%%
58	%% \def\breite{210mm} % A4 PORTRAIT
59	%% \def\hoehe{297mm}
60	%% \def\anzspalten{2}
61	%%
62	%%
63	%% Procedure:
64	%% Generate poster.dvi with latex
65	%% Check with Ghostview
66	%% Make a .ps-file with ``dvips -o poster.ps poster''
67	%% Scale it with poster_resize poster.ps S
68	%% where S is scale factor
69	%% for Special Format->A0 S= 2.828 (= 2^(3/2)))
70	%% for Special Format->A1 S= 2 (= 2^(2/2)))
71	%%
72	%% Sizes (European:)
73	%% A3: 29.73 X 42.04 cm
74	%% A1: 59.5 X 84.1 cm
75	%% A0: 84.1 X 118.9 cm
76	%% N.B. The recommended procedure is ``Special Format x 2.82"
77	%% which gives 90cm x 110cm (not quite A0 dimensions).
78	%%
79	%% --------------------------------------------------------------------------
80	%%
81	%% Load the necessary packages
82	%%
83	\usepackage{berkeley}
84	\usepackage[latin1]{inputenc}
85	\usepackage{epsf}
86	\usepackage{graphicx,psfrag,color,pstcol,pst-grad}
87	\usepackage{amsmath,amssymb}
88	\usepackage{latexsym}
89	\usepackage{calc}
90	\usepackage{multicol}
91
92	%% My Packages
93	%%\usepackage{wrapfig}
94
95	%%
96	%% Define the required numbers, lengths and boxes
97	%%
98	\newsavebox{\dummybox}
99	\newsavebox{\spalten}
100	%\input psfig.sty
101
102	%%
103	%%
104	\newlength{\bgwidth}\newlength{\bgheight}
105	\setlength\bgheight{\hoehe} \addtolength\bgheight{-1mm}
106	\setlength\bgwidth{\breite} \addtolength\bgwidth{-1mm}
107
108	\newlength{\kastenwidth}
109
110	%% Set paper format
111	\setlength\paperheight{\hoehe}
112	\setlength\paperwidth{\breite}
113	\special{papersize=\breite,\hoehe}
114
115	\topmargin -1in
116	\marginparsep0mm
117	\marginparwidth0mm
118	\headheight0mm
119	\headsep0mm
120
121
122	%% Minimal Margins to Make Correct Bounding Box
123	\setlength{\oddsidemargin}{-2.44cm}
124	\addtolength{\topmargin}{-3mm}
125	\textwidth\paperwidth
126	\textheight\paperheight
127
128	%%
129	%%
130	\parindent0cm
131	\parskip1.5ex plus0.5ex minus 0.5ex
132	\pagestyle{empty}
133
134
135
136	\definecolor{ndgold}{rgb}{0.87,0.82,0.59}
137	\definecolor{ndgold2}{rgb}{0.96,0.91,0.63}
138	\definecolor{ndblue}{rgb}{0,0.1875, 0.6992}
139	\definecolor{recoilcolor}{rgb}{1,0,0}
140	\definecolor{occolor}{rgb}{0,1,0}
141	\definecolor{pink}{rgb}{0,1,1}
142
143
144
145
146
147	\def\UberStil{\normalfont\sffamily\bfseries\large}
148	\def\UnterStil{\normalfont\sffamily\small}
149	\def\LabelStil{\normalfont\sffamily\tiny}
150	\def\LegStil{\normalfont\sffamily\tiny}
151
152	%%
153	%% Define some commands
154	%%
155	\definecolor{JG}{rgb}{0.1,0.9,0.3}
156
157	\newenvironment{kasten}{%
158	\begin{lrbox}{\dummybox}%
159	\begin{minipage}{0.96\linewidth}}%
160	{\end{minipage}%
161	\end{lrbox}%
162	\raisebox{-\depth}{\psshadowbox[framearc=0.05,framesep=1em]{\usebox{\dummybox}}}\\[0.5em]}
163	\newenvironment{spalte}{%
164	\setlength\kastenwidth{1.2\textwidth}
165	\divide\kastenwidth by \anzspalten
166	\begin{minipage}[t]{\kastenwidth}}{\end{minipage}\hfill}
167
168	%%\renewcommand{\emph}[1]{{\color{red}\textbf{#1}}}
169
170
171	\def\op#1{\hat{#1}}
172	\begin{document}
173	\bibliographystyle{plain}
174	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
175	%%% Background %%%
176	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
177
178	%%{\newrgbcolor{gradbegin}{0.87 0.82 0.59}%
179	{\newrgbcolor{gradbegin}{0.0 0.1875 0.6992}%
180	\newrgbcolor{gradend}{1 1 1}%{1 1 0.5}%
181	\psframe[fillstyle=gradient,gradend=gradend,%
182	gradbegin=gradbegin,gradmidpoint=0.1](\bgwidth,-\bgheight)}
183	\vfill
184	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
185	%%% Header %%%
186	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
187	\hfill
188	\psshadowbox[fillstyle=solid,fillcolor=ndgold2]{\makebox[0.95\textwidth]{%
189	\hfill
190	\parbox[c]{2cm}{\includegraphics[width=8cm]{ndLogoScience1a.eps}}
191	\hfill
192	\parbox[c]{0.8\linewidth}{%
193	\begin{center}
194	\color{ndblue}
195	\textbf{\Huge {A Mesoscale Model for Phospholipid Simulations}}\\[0.5em]
196	\textsc{\LARGE \underline{Matthew~A.~Meineke}, and J.~Daniel~Gezelter}\\[0.3em]
197	{\large Department of Chemistry and Biochemistry, University of Notre Dame, Notre Dame, IN 46556, USA\\
198	{\tt\ mmeineke@nd.edu}
199	}
200	\end{center}}
201	\hfill}}\hfill\mbox{}\\[1.cm]
202	%\vspace*{1.3cm}
203	\begin{lrbox}{\spalten}
204	\parbox[t][\textheight]{1.3\textwidth}{%
205	\vspace*{0.2cm}
206	\hfill
207	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
208	%%% first column %%%
209	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
210
211
212	\begin{spalte}
213	\begin{kasten}
214	%
215	%
216	% This begins the first "kasten" or box
217	%
218	%
219	\begin{center}
220	{\large{\color{red} \underline{ABSTRACT} } }
221	\end{center}
222
223	{\color{ndblue}
224
225	A mesoscale model for phospholipids has been developed for molecular
226	dynamics simulations of lipid bilayers. The model makes several
227	simplifications to both the water and the phospholipids to reduce the
228	computational cost of each force evaluation. The water was represented
229	by the soft sticky dipole model of Ichiye \emph{et
230	al}.\cite{liu96:new_model,liu96:monte_carlo,chandra99:ssd_md} The
231	simplifications to the phospholipids included the reduction of atoms
232	in the tail groups to beads representing $\mbox{CH}_{2}$ and
233	$\mbox{CH}_{3}$ unified atoms, and the replacement of the head groups
234	with a single point mass containing a centrally located dipole. The
235	model was then used to simulate micelle and bilayer formation from a
236	configuration of randomly placed phospholipids which was simulated for
237	times in excess of 30 nanoseconds.
238
239	}
240	\end{kasten}
241
242
243
244	\end{spalte}
245	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
246	%%% second column %%%
247	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
248	\begin{spalte}
249
250	\begin{kasten}
251	\section*{2 \hspace{0.1cm} {\color{ndblue}Ima second column holder}}
252
253	hello
254
255	\end{kasten}
256
257
258
259
260	\end{spalte}
261	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
262	%%% third column %%%
263	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
264	\begin{spalte}
265
266	\begin{kasten}
267	\section*{3 \hspace{0.1cm} {\color{ndblue}Ima third column holder}}
268
269	hello
270
271	\end{kasten}
272
273
274	\end{spalte}
275	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
276	%%% fourth column %%%
277	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
278	\begin{spalte}
279
280
281
282
283
284	\begin{kasten}
285	\begin{center}
286	{\large{\color{red} \underline{Acknowledgments}}}
287	\end{center}
288
289	The authors would like to acknowledge Charles Vardeman, Christopher
290	Fennell, and Teng lin for their contributions to the simulation
291	engine. MAM would also like to extend a special thank you to Charles
292	Vardeman for his help with the TeX formatting of this
293	poster. Computaion time was provided on the Bunch-of-Boxes (B.o.B.)
294	cluster under NSF grant DMR 00 79647. The authors acknowledge support
295	under NSF grant CHE-0134881.
296
297	\end{kasten}
298
299	\vspace{0.5cm}
300	\begin{kasten}
301	{\small
302	\bibliography{poster}
303	}
304	\end{kasten}
305	\end{spalte}
306	}
307	\end{lrbox}
308	\resizebox*{0.98\textwidth}{!}{%
309	\usebox{\spalten}}\hfill\mbox{}\vfill
310	\end{document}