TemplateForSubmission-TECCIENCIA
Auteur
ROBERT SALAZAR
Last Updated
il y a 5 mois
License
Creative Commons CC BY 4.0
Résumé
Simple template to submit papers in Teccienca
\documentclass[10pt]{article}
\usepackage[latin1]{inputenc}
\usepackage{amsmath}
\usepackage{amsfonts}
\usepackage{amssymb}
\usepackage{mathrsfs}
\usepackage{fancyhdr}
\pagestyle{fancy}
\fancyhf{}
\rhead{Tecciencia}
\lhead{Template for submission to TECCIENCIA}
\rfoot{Page \thepage}
\usepackage{blindtext}
\usepackage{MnSymbol}
\usepackage[cal=boondox,scr=boondoxo]{mathalfa}
\usepackage{float}
\usepackage{subfig}
\usepackage{fancybox,graphicx}
\usepackage{subfig}
\usepackage{caption}
%\usepackage{subcaption}
\usepackage{color}
\usepackage{authblk}
\usepackage[colorlinks]{hyperref}
\input{doiCmd} %doi command
\usepackage{accents}
\usepackage[titletoc,title]{appendix}
%\usepackage[numbers,sort&compress]{natbib}
\usepackage{cite}
%floor and ceiling functions
\usepackage{mathtools}
\DeclarePairedDelimiter\ceil{\lceil}{\rceil}
\DeclarePairedDelimiter\floor{\lfloor}{\rfloor}
\usepackage[top=2in, bottom=1.5in, left=1in, right=1in]{geometry}
\newcommand{\soft}{\mathcal{S}}
\newcommand{\hard}{\mathcal{H}}
\newcommand*\underdot[1]{ \underaccent{\bullet}{\mathcal{#1}} } %requiere: \usepackage{accents}
\newcommand*\UnderDot[1]{ \underaccent{\bullet}{#1} } %requiere: \usepackage{accents}
\usepackage{stackengine}
\newcommand\barbelow[1]{\stackunder[2.5pt]{$#1$}{\rule{1.2ex}{.15ex}}}
\newcommand{\pvec}[1]{\vec{#1}\mkern2mu\vphantom{#1}} %to prime a vector
\newcommand*\UnderTilde[1]{ \underaccent{\sim}{#1} }
\renewcommand{\figurename}{Fig.}
%definitions
\def\components{
\left(
\begin{matrix}
z\cos\gamma_n \vspace{0.3cm} \\
z\sin\gamma_n\vspace{0.3cm} \\
-(x-x_n)\cos\gamma_n+(y-y_n)\sin\gamma_n
\end{matrix}
\right)
}
\def\componentsII{
\left(
\begin{matrix}
z\cos\gamma_n \vspace{0.3cm} \\
z\sin\gamma_n\vspace{0.3cm} \\
\mathscr{R}_n\cos(\gamma_n+\beta_n)-x\cos\gamma_n+y\sin\gamma_n
\end{matrix}
\right)
}
\def\change{
\scriptsize
\begin{matrix}
y \rightarrow \Lambda_{n}(\boldsymbol{r})
\vspace{0.05cm} \\
r \rightarrow \lambda_{n}(\boldsymbol{r})
\end{matrix}
\normalsize
}
\title{Manuscript Title}
\author[1]{Author One}
\author[2]{Author Two}
\author[3]{Author Three}
\affil[1]{Affiliation One, City-Country}
\affil[2]{Affiliation Two, City-Country}
\affil[3]{Affiliation Three, City-Country}
%\affil[3]{Grupo de F\'isica Te\'orica y desrrollo de Software, Universidad Distrital Francisco Jos\'e de Caldas, Bogot\'a, Colombia}
%\affil[4]{University of Vienna, UniWien, Computational physics group}
\begin{document}
\maketitle
\begin{abstract}
Manuscripts submitted to TECCIENCIA may use these instructions and this template format. The template simplifies manuscript preparation. Authors using this universal template will still need to adhere to article-length restrictions based on the final, published format. \blindtext
\\\\Keywords: keyword1, keyword2, keyword3 .
\end{abstract}
\section{Introduction}
You can use bibtex for references. Single reference is cited as follows \cite{chiaverini2005surface}, and set of references as follows \cite{leibfried2005surface,seidelin2006microfabricated,daniilidis2011fabrication}. Please include the DOI of each reference if it is available.
\blindtext
\section{Mathematical and scientific notation}
\subsection{Displayed equations} Displayed equations should be centered.
Equation numbers should appear at the right-hand margin, in
parentheses:
\begin{equation}
J(\rho) =
\frac{\gamma^2}{2} \; \sum_{k({\rm even}) = -\infty}^{\infty}
\frac{(1 + k \tau)}{ \left[ (1 + k \tau)^2 + (\gamma \rho)^2 \right]^{3/2} }.
\label{niceEq}
\end{equation}
All equations should be numbered in the order in which they appear
and should be referenced from within the main text as Eq. (\ref{niceEq}),
Eq. (\ref{LaplaceElectrostaticEquation}). We suggest to use align command for set of equations.
The mathematical problem requires to solve a Laplace's equation for the scalar electric potential $\Phi(\boldsymbol{r})$ given by
\begin{align}
\nabla^2 \Phi(\boldsymbol{r}) =& 0, &&\boldsymbol{r} \in \mathfrak{D}=\left\{\boldsymbol{r} \in \mathbb{R}^3 : z > 0 \right\}, \label{LaplaceElectrostaticEquation}
\end{align}{}
subjected to the following Dirichlet and Neumann boundary conditions:
\begin{align}
\Phi(\boldsymbol{r}) &= V_o \hspace{0.5cm} &&\mbox{\textbf{if}} \hspace{0.5cm} \boldsymbol{r} \in \mathcal{A}_{in} \subset \left\{\boldsymbol{r} \in \mathbb{R}^2 : z = 0 \right\},\label{DirichletBoundaryConditionsEq1}\\
\Phi(\boldsymbol{r}) &= 0 \hspace{0.5cm} &&\mbox{\textbf{if}} \hspace{0.5cm} \boldsymbol{r} \in \left\{\boldsymbol{r} \in \mathbb{R}^2 : z = 0 \right\}\setminus\mathcal{A}_{in}\cup\mathcal{G},
\label{DirichletBoundaryConditionsEq2}\\
\frac{\partial \Phi(\boldsymbol{r})}{\partial z} &=0 &&\mbox{\textbf{if}} \hspace{0.5cm} \boldsymbol{r} \in \mathcal{G}.
\label{NeumannBoundaryConditionsEq}
\end{align}
\section{Figures and Tables}
All figures must cited in the manuscript as follows Fig.~\ref{theSystemFig}.
\begin{figure}[H]
\centering %system.pdf
\includegraphics[width=0.45\textwidth]{DarkTeccienciaLogo.png}
\caption[The system.]{Figure caption. }
\label{theSystemFig}
\end{figure}
This is a sample of Table.~\ref{analogiesTableEq}. All tables in the document must be cited.
\begin{table}[h]
\begin{minipage}{.95\textwidth}
\begin{center}\small
\begin{tabular}{ | p{7cm} | p{7cm} | }
\hline
\textbf{Electrostatics} & \textbf{Magnetostatics} \\ \hline
Electric Field & Magnetic field (Biot-Savart law) \\
$\boldsymbol{E}(\boldsymbol{r}) = \frac{V_o}{2\pi} \mbox{sgn}(z) \int_{\mathscr{G}} \frac{\boldsymbol{\mathscr{W}}_{\nu}(\boldsymbol{r}')d^2 \boldsymbol{r}' \times (\boldsymbol{r}-\boldsymbol{r}')}{|\boldsymbol{r}-\boldsymbol{r}'|^3}$ & $\boldsymbol{B}(\boldsymbol{r}) = \frac{\mu_o}{4\pi} \int_{\mathscr{G}} \frac{\boldsymbol{\mathscr{K}}(\boldsymbol{r}')d^2 \boldsymbol{r}' \times (\boldsymbol{r}-\boldsymbol{r}')}{|\boldsymbol{r}-\boldsymbol{r}'|^3}$ \\ \hline
Weight vector & Surface current density\\
$\boldsymbol{\mathscr{W}}_{\nu}(\boldsymbol{r})$
& $\boldsymbol{\mathscr{K}}(\boldsymbol{r})$\\ \hline
Continuity & Continuity (charge conservation) \\
$\nabla \cdot \boldsymbol{\mathscr{W}}_{\nu}(\boldsymbol{r}) = 0 $
&$\nabla \cdot \boldsymbol{\mathscr{K}}(\boldsymbol{r}) = 0$ \\\hline
Gauss' law & Gauss' law \\
$\boldsymbol{\nabla}\cdot\boldsymbol{E} = \frac{1}{\epsilon_o}\sigma(\boldsymbol{r})\delta(z)$
& $\boldsymbol{\nabla}\cdot\boldsymbol{B}=0$\\
\hline
\end{tabular}
\caption {The analogy between the gaped SE and magnetostatics.}
\label{analogiesTableEq}
\end{center}
\end{minipage}%
\end{table}
We use minipage to include several plots in a single figure (see Fig.~\ref{potentialZConstGapedCircularSEFig}).
\begin{figure}[h]
\begin{minipage}[b]{0.24\linewidth}
\includegraphics[width=1\textwidth]{DarkTeccienciaLogo.png}
\caption*{(a) first} %0.5
\end{minipage}
\begin{minipage}[b]{0.24\linewidth}
\includegraphics[width=1\textwidth]{TeccienciaLogo.png}
\caption*{(b) second} %vectorFieldPhi05PiN33.pdf
\end{minipage}
\begin{minipage}[b]{0.24\linewidth}
\includegraphics[width=1\textwidth]{DarkTeccienciaLogo.png}
\caption*{(z) third} %vectorFieldPhi3Pi4N33.pdf
\end{minipage}
\begin{minipage}[b]{0.24\linewidth}
\includegraphics[width=1\textwidth]{TeccienciaLogo.png}
\caption*{(d) fourth} %vectorFieldPhi3Pi4N33.pdf
\end{minipage}
\caption[Potential.]{Figure caption. }
\label{potentialZConstGapedCircularSEFig}
\end{figure}
\section*{Conclusions}
\blindtext
\section*{Acknowledgments}
Acknowledgments should be included at the end of the document. The section title should not follow the numbering scheme of the body of the paper. Additional information crediting individuals who contributed to the work being reported, clarifying who received funding from a particular source, or other information that does not fit the criteria for the funding block may also be included; for example, ``K. Flockhart thanks the National Science Foundation for help identifying collaborators for this work.''
\bibliographystyle{ieeetr} %alpha, apalike, ieeetr
\bibliography{bibliography.bib}
%\begin{thebibliography}{99} % Bibliography - this is %intentionally simple in this template
%\bibitem{andreotti1997studying} B. Andreotti, \emph{Studying Burgers' models to investigate the physical meaning of the alignments statistically observed in turbulence}, Phys. Fluids \textbf{9} : 3, March (1997)
%\bibitem{cohl1999compact} Cohl, Howard S., and Joel E. Tohline, \emph{A compact cylindrical Green's function expansion for the solution of potential problems}, The astrophysical journal \textbf{527} : 86 - 101 (1999) %DOI: https://doi.org/10.1086/308062
%\bibitem{abramowitz1965handbook} Abramowitz, Milton, and Irene A. Stegun. \emph{Handbook of Mathematical Functions With Formulas, Graphs, and Mathematical Tables.} (1964).
%\end{thebibliography}
%croos section karlie
%GOOD: http://www.eumetrain.org/satmanu/CMs/TrCyAt/print.htm
%https://physics.stackexchange.com/questions/275799/why-is-the-eye-of-a-cyclone-a-forced-vortex
%http://www.chanthaburi.buu.ac.th/~wirote/met/tropical/textbook_2nd_edition/navmenu.php_tab_9_page_7.1.0.htm
%http://www.atmos.umd.edu/~dalin/andrew/part2.html
%https://nptel.ac.in/courses/119102007/2
%http://www.911omissionreport.com/steering_hurricanes.html
%https://www.youtube.com/watch?v=_brY_9ME8iE brooks
\end{document}