trunk/multipole/multipole2.tex

% ****** Start of file aipsamp.tex ******
%
%   This file is part of the AIP files in the AIP distribution for REVTeX 4.
%   Version 4.1 of REVTeX, October 2009
%
%   Copyright (c) 2009 American Institute of Physics.
%
%   See the AIP README file for restrictions and more information.
%
% TeX'ing this file requires that you have AMS-LaTeX 2.0 installed
% as well as the rest of the prerequisites for REVTeX 4.1
%
% It also requires running BibTeX. The commands are as follows:
%
%  1)  latex  aipsamp
%  2)  bibtex aipsamp
%  3)  latex  aipsamp
%  4)  latex  aipsamp
%
% Use this file as a source of example code for your aip document.
% Use the file aiptemplate.tex as a template for your document.
\documentclass[%
 aip,jcp,
 amsmath,amssymb,
preprint,%
% reprint,%
%author-year,%
%author-numerical,%
]{revtex4-1}

\usepackage{graphicx}% Include figure files
\usepackage{dcolumn}% Align table columns on decimal point
%\usepackage{bm}% bold math
\usepackage[version=3]{mhchem}  % this is a great package for formatting chemical reactions
\usepackage{url}

%\usepackage[mathlines]{lineno}% Enable numbering of text and display math
%\linenumbers\relax % Commence numbering lines

\begin{document}

\preprint{AIP/123-QED}

\title[Efficient electrostatics for condensed-phase multipoles]
{Real space alternatives to the Ewald
Sum. II. performance in condensed phase simulations}

\author{Madan Lamichhane}
\affiliation{Department of Physics, University
of Notre Dame, Notre Dame, IN 46556}

\author{Kathie E. Newman}
\affiliation{Department of Physics, University
of Notre Dame, Notre Dame, IN 46556}

\author{J. Daniel Gezelter}
 \email{gezelter@nd.edu.}
\affiliation{Department of Chemistry and Biochemistry, University
of Notre Dame, Notre Dame, IN 46556}


\date{\today}% It is always \today, today,
             %  but any date may be explicitly specified

\begin{abstract}
  We have extended the original damped-shifted force (DSF)
  electrostatic kernel and have been able to derive two new
  electrostatic potentials for higher-order multipoles that are based
  on truncated Taylor expansions around the cutoff radius.  For
  multipole-multipole interactions, we find that each of the distinct
  orientational contributions has a separate radial function to ensure
  that the overall forces and torques vanish at the cutoff radius. In
  this paper, we present energy, force, and torque expressions for the
  new models, and compare these real-space interaction models to exact
  results for ordered arrays of multipoles.
\end{abstract}

\pacs{Valid PACS appear here}% PACS, the Physics and Astronomy
                             % Classification Scheme.
\keywords{Suggested keywords}%Use showkeys class option if keyword
                              %display desired
\maketitle

\section{Introduction}

\newpage

\bibliography{multipole}

\end{document}
Revision:	3980
Committed:	Fri Dec 6 18:50:14 2013 UTC (11 years, 4 months ago) by gezelter
Content type:	application/x-tex
File size:	2864 byte(s)
Log Message:	Latest edits
#	Content
1	% **** Start of file aipsamp.tex ****
2	%
3	% This file is part of the AIP files in the AIP distribution for REVTeX 4.
4	% Version 4.1 of REVTeX, October 2009
5	%
6	% Copyright (c) 2009 American Institute of Physics.
7	%
8	% See the AIP README file for restrictions and more information.
9	%
10	% TeX'ing this file requires that you have AMS-LaTeX 2.0 installed
11	% as well as the rest of the prerequisites for REVTeX 4.1
12	%
13	% It also requires running BibTeX. The commands are as follows:
14	%
15	% 1) latex aipsamp
16	% 2) bibtex aipsamp
17	% 3) latex aipsamp
18	% 4) latex aipsamp
19	%
20	% Use this file as a source of example code for your aip document.
21	% Use the file aiptemplate.tex as a template for your document.
22	\documentclass[%
23	aip,jcp,
24	amsmath,amssymb,
25	preprint,%
26	% reprint,%
27	%author-year,%
28	%author-numerical,%
29	]{revtex4-1}
30
31	\usepackage{graphicx}% Include figure files
32	\usepackage{dcolumn}% Align table columns on decimal point
33	%\usepackage{bm}% bold math
34	\usepackage[version=3]{mhchem} % this is a great package for formatting chemical reactions
35	\usepackage{url}
36
37	%\usepackage[mathlines]{lineno}% Enable numbering of text and display math
38	%\linenumbers\relax % Commence numbering lines
39
40	\begin{document}
41
42	\preprint{AIP/123-QED}
43
44	\title[Efficient electrostatics for condensed-phase multipoles]
45	{Real space alternatives to the Ewald
46	Sum. II. performance in condensed phase simulations}
47
48	\author{Madan Lamichhane}
49	\affiliation{Department of Physics, University
50	of Notre Dame, Notre Dame, IN 46556}
51
52	\author{Kathie E. Newman}
53	\affiliation{Department of Physics, University
54	of Notre Dame, Notre Dame, IN 46556}
55
56	\author{J. Daniel Gezelter}
57	\email{gezelter@nd.edu.}
58	\affiliation{Department of Chemistry and Biochemistry, University
59	of Notre Dame, Notre Dame, IN 46556}
60
61
62	\date{\today}% It is always \today, today,
63	% but any date may be explicitly specified
64
65	\begin{abstract}
66	We have extended the original damped-shifted force (DSF)
67	electrostatic kernel and have been able to derive two new
68	electrostatic potentials for higher-order multipoles that are based
69	on truncated Taylor expansions around the cutoff radius. For
70	multipole-multipole interactions, we find that each of the distinct
71	orientational contributions has a separate radial function to ensure
72	that the overall forces and torques vanish at the cutoff radius. In
73	this paper, we present energy, force, and torque expressions for the
74	new models, and compare these real-space interaction models to exact
75	results for ordered arrays of multipoles.
76	\end{abstract}
77
78	\pacs{Valid PACS appear here}% PACS, the Physics and Astronomy
79	% Classification Scheme.
80	\keywords{Suggested keywords}%Use showkeys class option if keyword
81	%display desired
82	\maketitle
83
84	\section{Introduction}
85
86	\newpage
87
88	\bibliography{multipole}
89
90	\end{document}