From 274943e723eb96f8c53a4abf5e090befa66f9cca Mon Sep 17 00:00:00 2001 From: Jaron Kent-Dobias Date: Wed, 30 Dec 2020 14:01:29 +0100 Subject: Switched to biblatex. --- cover.tex | 46 ++++++++++++++++------------------------------ 1 file changed, 16 insertions(+), 30 deletions(-) (limited to 'cover.tex') diff --git a/cover.tex b/cover.tex index 2d2fc10..ec9ff7a 100644 --- a/cover.tex +++ b/cover.tex @@ -1,25 +1,5 @@ \documentclass[a4paper]{letter} -\makeatletter -\newenvironment{thebibliography}[1] - {\list{\@biblabel{\@arabic\c@enumiv}}% - {\settowidth\labelwidth{\@biblabel{#1}}% - \leftmargin\labelwidth - \advance\leftmargin\labelsep - \usecounter{enumiv}% - \let\p@enumiv\@empty - \renewcommand\theenumiv{\@arabic\c@enumiv}}% - \sloppy - \clubpenalty4000 - \@clubpenalty \clubpenalty - \widowpenalty4000% - \sfcode`\.\@m} - {\def\@noitemerr - {\@latex@warning{Empty `thebibliography' environment}}% - \endlist} -\newcommand\newblock{\hskip .11em\@plus.33em\@minus.07em} -\makeatother - \usepackage[utf8]{inputenc} % why not type "Bézout" with unicode? \usepackage[T1]{fontenc} % vector fonts plz \usepackage{newtxtext,newtxmath} % Times for PR @@ -31,8 +11,12 @@ linkcolor=purple ]{hyperref} % ref and cite links with pretty colors \usepackage{xcolor} +\usepackage[style=phys]{biblatex} + +\addbibresource{bezout.bib} \signature{ + \vspace{-3.5em} Jaron Kent-Dobias \& Jorge Kurchan } @@ -53,16 +37,16 @@ \opening{} -The subject of `Complex Landscapes,' which started in the spin-glass +The subject of `complex landscapes,' which started in the spin-glass literature, is concerned with functions (landscapes) of many variables, having -a multiplicity of minimums, which are the objects of interest. Apart from its -obvious interest for glassy systems, it has found a myriad applications in -many domains: Computer Science, Ecology, Economics, Biology +a multiplicity of minima, which are the objects of interest. Apart from its +obvious interest for glassy systems, it has found a myriad applications in many +domains: computer science, ecology, economics, biology \cite{Mezard_2009_Information}. In the last few years, a renewed interest has developed for landscapes for which the variables are complex. There are a few reasons for this: {\em i)} in -Computational Physics, there is the main obstacle of the `sign problem', and a +computational physics, there is the main obstacle of the `sign problem', and a strategy has emerged to attack it deforming the sampling space into complex variables. This is a most natural and promising path, and any progress made will have game-changing impact in solid state physics and lattice-QCD @@ -73,17 +57,19 @@ concerning the very definition of quantum mechanics, which requires also that one move into the complex plane. In all these cases, just like in the real case, one needs to know the structure -of the `landscape', where are the saddle points and how they are connected, -typical questions of `complexity'. However, to the best of our knowledge, +of the `landscape.' where are the saddle points and how they are connected, +typical questions of `complexity.' However, to the best of our knowledge, there are no studies extending the methods of the theory of complexity to complex variables. We believe our paper will open a field that may find numerous applications and will widen our theoretical view of complexity in general. \closing{Sincerely,} -\end{letter} -\bibliographystyle{unsrt} -\bibliography{bezout} +\vspace{1em} + +\printbibliography[heading=none] + +\end{letter} \end{document} -- cgit v1.2.3-54-g00ecf