\documentclass[11 pt,xcolor={dvipsnames,svgnames,x11names,table}]{beamer} \usepackage[english]{babel} \usepackage{polski} \usetheme[ bullet=circle, % Other option: square bigpagenumber, % circled page number on lower right topline=true, % colored bar at the top of the frame shadow=false, % Shading for beamer blocks watermark=BG_lower, % png file for the watermark ]{Flip} %\logo{\kern+1.em\includegraphics[height=1cm]{SHiP-3_LightCharcoal}} \usepackage[lf]{berenis} \usepackage[LY1]{fontenc} \usepackage[utf8]{inputenc} \usepackage{emerald} \usefonttheme{professionalfonts} \usepackage[no-math]{fontspec} \defaultfontfeatures{Mapping=tex-text} % This seems to be important for mapping glyphs properly \setmainfont{Gillius ADF} % Beamer ignores "main font" in favor of sans font \setsansfont{Gillius ADF} % This is the font that beamer will use by default % \setmainfont{Gill Sans Light} % Prettier, but harder to read \setbeamerfont{title}{family=\fontspec{Gillius ADF}} \input t1augie.fd %\newcommand{\handwriting}{\fontspec{augie}} % From Emerald City, free font %\newcommand{\handwriting}{\usefont{T1}{fau}{m}{n}} % From Emerald City, free font % \newcommand{\handwriting}{} % If you prefer no special handwriting font or don't have augie %% Gill Sans doesn't look very nice when boldfaced %% This is a hack to use Helvetica instead %% Usage: \textbf{\forbold some stuff} %\newcommand{\forbold}{\fontspec{Arial}} \usepackage{graphicx} \usepackage[export]{adjustbox} \usepackage{amsmath} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{bm} \usepackage{colortbl} \usepackage{mathrsfs} % For Weinberg-esque letters \usepackage{cancel} % For "SUSY-breaking" symbol \usepackage{slashed} % for slashed characters in math mode \usepackage{bbm} % for \mathbbm{1} (unit matrix) \usepackage{amsthm} % For theorem environment \usepackage{multirow} % For multi row cells in table \usepackage{arydshln} % For dashed lines in arrays and tables \usepackage{siunitx} \usepackage{xhfill} \usepackage{grffile} \usepackage{textpos} \usepackage{subfigure} \usepackage{tikz} %\usepackage{hepparticles} \usepackage[italic]{hepparticles} \usepackage{hepnicenames} % Drawing a line \tikzstyle{lw} = [line width=20pt] \newcommand{\topline}{% \tikz[remember picture,overlay] {% \draw[crimsonred] ([yshift=-23.5pt]current page.north west) -- ([yshift=-23.5pt,xshift=\paperwidth]current page.north west);}} % % % % % % % % % % % % % % % % % % % % % % % % % % % % % % % % % % % \usepackage{tikzfeynman} % For Feynman diagrams \usetikzlibrary{arrows,shapes} \usetikzlibrary{trees} \usetikzlibrary{matrix,arrows} % For commutative diagram % http://www.felixl.de/commu.pdf \usetikzlibrary{positioning} % For "above of=" commands \usetikzlibrary{calc,through} % For coordinates \usetikzlibrary{decorations.pathreplacing} % For curly braces % http://www.math.ucla.edu/~getreuer/tikz.html \usepackage{pgffor} % For repeating patterns \usetikzlibrary{decorations.pathmorphing} % For Feynman Diagrams \usetikzlibrary{decorations.markings} \tikzset{ % >=stealth', %% Uncomment for more conventional arrows vector/.style={decorate, decoration={snake}, draw}, provector/.style={decorate, decoration={snake,amplitude=2.5pt}, draw}, antivector/.style={decorate, decoration={snake,amplitude=-2.5pt}, draw}, fermion/.style={draw=gray, postaction={decorate}, decoration={markings,mark=at position .55 with {\arrow[draw=gray]{>}}}}, fermionbar/.style={draw=gray, postaction={decorate}, decoration={markings,mark=at position .55 with {\arrow[draw=gray]{<}}}}, fermionnoarrow/.style={draw=gray}, gluon/.style={decorate, draw=black, decoration={coil,amplitude=4pt, segment length=5pt}}, scalar/.style={dashed,draw=black, postaction={decorate}, decoration={markings,mark=at position .55 with {\arrow[draw=black]{>}}}}, scalarbar/.style={dashed,draw=black, postaction={decorate}, decoration={markings,mark=at position .55 with {\arrow[draw=black]{<}}}}, scalarnoarrow/.style={dashed,draw=black}, electron/.style={draw=black, postaction={decorate}, decoration={markings,mark=at position .55 with {\arrow[draw=black]{>}}}}, bigvector/.style={decorate, decoration={snake,amplitude=4pt}, draw}, } % TIKZ - for block diagrams, % from http://www.texample.net/tikz/examples/control-system-principles/ % \usetikzlibrary{shapes,arrows} \tikzstyle{block} = [draw, rectangle, minimum height=3em, minimum width=6em] \usetikzlibrary{backgrounds} \usetikzlibrary{mindmap,trees} % For mind map \newcommand{\degree}{\ensuremath{^\circ}} \newcommand{\E}{\mathrm{E}} \newcommand{\Var}{\mathrm{Var}} \newcommand{\Cov}{\mathrm{Cov}} \newcommand\Ts{\rule{0pt}{2.6ex}} % Top strut \newcommand\Bs{\rule[-1.2ex]{0pt}{0pt}} % Bottom strut \graphicspath{{images/}} % Put all images in this directory. Avoids clutter. % SOME COMMANDS THAT I FIND HANDY % \renewcommand{\tilde}{\widetilde} % dinky tildes look silly, dosn't work with fontspec \newcommand{\comment}[1]{\textcolor{comment}{\footnotesize{#1}\normalsize}} % comment mild \newcommand{\Comment}[1]{\textcolor{Comment}{\footnotesize{#1}\normalsize}} % comment bold \newcommand{\COMMENT}[1]{\textcolor{COMMENT}{\footnotesize{#1}\normalsize}} % comment crazy bold \newcommand{\Alert}[1]{\textcolor{Alert}{#1}} % louder alert \newcommand{\ALERT}[1]{\textcolor{ALERT}{#1}} % loudest alert %% "\alert" is already a beamer pre-defined \newcommand*{\Scale}[2][4]{\scalebox{#1}{$#2$}}% \def\Put(#1,#2)#3{\leavevmode\makebox(0,0){\put(#1,#2){#3}}} \usepackage{gmp} \usepackage[final]{feynmp-auto} \usepackage[backend=bibtex,style=numeric-comp,firstinits=true]{biblatex} \bibliography{bib} \setbeamertemplate{bibliography item}[text] \makeatletter\let\frametextheight\beamer@frametextheight\makeatother % suppress frame numbering for backup slides % you always need the appendix for this! \newcommand{\backupbegin}{ \newcounter{framenumberappendix} \setcounter{framenumberappendix}{\value{framenumber}} } \newcommand{\backupend}{ \addtocounter{framenumberappendix}{-\value{framenumber}} \addtocounter{framenumber}{\value{framenumberappendix}} } \definecolor{links}{HTML}{2A1B81} %\hypersetup{colorlinks,linkcolor=,urlcolor=links} % For shapo's formulas: \def\lsi{\raise0.3ex\hbox{$<$\kern-0.75em\raise-1.1ex\hbox{$\sim$}}} \def\gsi{\raise0.3ex\hbox{$>$\kern-0.75em\raise-1.1ex\hbox{$\sim$}}} \newcommand{\lsim}{\mathop{\lsi}} \newcommand{\gsim}{\mathop{\gsi}} \newcommand{\wt}{\widetilde} %\newcommand{\ol}{\overline} \newcommand{\Tr}{\rm{Tr}} \newcommand{\tr}{\rm{tr}} \newcommand{\eqn}[1]{&\hspace{-0.7em}#1\hspace{-0.7em}&} \newcommand{\vev}[1]{\rm{$\langle #1 \rangle$}} \newcommand{\abs}[1]{\rm{$\left| #1 \right|$}} \newcommand{\eV}{\rm{eV}} \newcommand{\keV}{\rm{keV}} \newcommand{\TeV}{\rm{TeV}} \newcommand{\GeV}{\rm{GeV}} \newcommand{\im}{\rm{Im}} \newcommand{\disp}{\displaystyle} \def\be{\begin{equation}} \def\ee{\end{equation}} \def\ba{\begin{eqnarray}} \def\ea{\end{eqnarray}} \def\d{\partial} \def\l{\left(} \def\r{\right)} \def\la{\langle} \def\ra{\rangle} \def\e{{\rm e}} \def\Br{{\rm Br}} \author{ {\fontspec{Trebuchet MS}Marcin Chrz\k{a}szcz} (Universit\"{a}t Z\"{u}rich)} \institute{UZH} \title[Electroweak Run2 prospects]{Electroweak Run2 prospects} \date{1-2 September 2015} \begin{document} \tikzstyle{every picture}+=[remember picture] { \setbeamertemplate{sidebar right}{\llap{\includegraphics[width=\paperwidth,height=\paperheight]{bubble2}}} \begin{frame}[c]%{\phantom{title page}} \begin{center} \begin{center} \begin{columns} \begin{column}{0.75\textwidth} \flushright\fontspec{Trebuchet MS}\bfseries \Huge {Electroweak\\ Run2 prospects} \end{column} \begin{column}{0.02\textwidth} {~} \end{column} \begin{column}{0.23\textwidth} % \hspace*{-1.cm} \vspace*{-3mm} \includegraphics[width=0.6\textwidth]{lhcb-logo} \end{column} \end{columns} \end{center} \quad \vspace{3em} \begin{columns} \begin{column}{0.44\textwidth} \flushright \vspace{-1.8em} {\fontspec{Trebuchet MS} \Large Marcin ChrzÄ…szcz\\\vspace{-0.1em}\small \href{mailto:mchrzasz@cern.ch}{mchrzasz@cern.ch}} \end{column} \begin{column}{0.53\textwidth} \includegraphics[height=1.3cm]{uzh-transp} \end{column} \end{columns} \vspace{1em} % \footnotesize\textcolor{gray}{With N. Serra, B. Storaci\\Thanks to the theory support from M. Shaposhnikov, D. Gorbunov}\normalsize\\ \vspace{0.5em} \textcolor{normal text.fg!50!Comment}{Zurich meeting, Churwalden\\September 1-2, 2015} \end{center} \end{frame} } \begin{frame}\frametitle{Higher energy!} \begin{columns} \column{0.1\textwidth} {~} \column{0.5\textwidth} $7~\TeV$ \column{0.4\textwidth} $14~\TeV$ \end{columns} \includegraphics[width=0.95\textwidth]{images/Q_x.png} \begin{itemize} \item LHCb cover a very unique region of the phase space that is not accessible for any other experiments. \item One could measure in this regime: \begin{itemize} \item $\PW$, $\PZ$ cross section. \item Drell-Yan cross section. \end{itemize} \item This measurements would strongly constrain the PDF in the fits. \end{itemize} \end{frame} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \begin{frame}\frametitle{Cross section} $\Rrightarrow$ Higher energy $\Rightarrow$ Higher cross section: \includegraphics[width=0.95\textwidth]{images/xsection.png} $\Rrightarrow$ In contrast to RD the EW measurements should start much sooner as they are not statistically dominated! \end{frame} \begin{frame}\frametitle{What could we do?} $\Rrightarrow$ For starters we should start by measurement of $\PZ$ cross section.\\ $\Rightarrow$ Relativity simple, you don't need much data.\\ $\Rightarrow$ Important for MC tuning.\\ $\Rrightarrow$ More interesting: Tripple Gauge Boson Couplings:\\{~}\\ \begin{columns} \column{3in} \begin{itemize} \item Clear SM prediction. \item Sensitive to anomalous couplings! \item ATLAS observed a small but consistent deviation in this measurement. \end{itemize} \column{2in} \includegraphics[width=0.9\textwidth]{{images/DibosonGeneric.eps}.jpg} \end{columns} \end{frame} \begin{frame}\frametitle{Drell-Yan} \begin{columns} \column{0.05\textwidth} \column{0.45\textwidth} \begin{itemize} \item Very clean theoretical prediction! \item Effectively you are probing the proton PDF. \item Remember that the theory error for all the Higgs calculations comes from PDFs. \item One could improve really the PDFs thanks to special kinematic region of LHCb. \end{itemize} \column{0.5\textwidth} \includegraphics[width=0.9\textwidth]{{images/450px-Drell-Yan.svg}.png}\\ \includegraphics[angle=-90,width=0.9\textwidth]{{images/13000_14000_y_bin_2_4.5}.pdf} \end{columns} \end{frame} \begin{frame}\frametitle{Central Exclusive Production} \begin{columns} \column{0.05\textwidth} \column{0.65\textwidth} \begin{itemize} \item Super clean theoretically. \item Signature: protons interact and go to the beam pipe undetected, in the detector you are left with couple of particles. \item Probing PDF and also thanks to DPE we have a link to Higgs Physics. \end{itemize} \column{0.3\textwidth} \includegraphics[width=0.6\textwidth]{{images/2gamma}.png}\\ \includegraphics[width=0.6\textwidth]{{images/gammapomeron}.png}\\ \includegraphics[width=0.6\textwidth]{{images/2pomeron}.png}\\ \end{columns} \end{frame} \begin{frame}\frametitle{Central Exclusive Production- detector upgrade} \begin{itemize} \item For Run2 LHCb installed:HeRSCheL: High Rapidity Shower Counters \item They cover $5<\eta<8$. \item Rejecting the main background for CEP. \end{itemize} \includegraphics[width=0.9\textwidth]{{images/upgrade}.png}\\ \end{frame} \begin{frame}\frametitle{Ion-Ion run} \begin{columns} \column{0.03\textwidth} {~} \column{0.7\textwidth} \begin{itemize} \item Tests of all QGP effects: \begin{itemize} \item Colour screening. \item Melting states. \item Jet quenching. \item $\PJpsi$ suppression. \item Elliptic flow. \end{itemize} \item Cold and hot matter effects. \item SMOG. \item etc. \end{itemize} \column{0.27\textwidth} \includegraphics[width=0.95\textwidth]{images/melt.png}\\ \end{columns} \includegraphics[width=0.85\textwidth]{images/smog.png} \end{frame} \begin{frame}\frametitle{CP-odd Higgs} \includegraphics[width=0.95\textwidth]{images/diagrams.png} \begin{itemize} \item Competitive with ATLAS and CMS \item We have excellent resolution. \item Can problem mass around the $\Upsilon$s region. \end{itemize} \end{frame} \begin{frame}\frametitle{top physics} \begin{itemize} \item Katharina already presented our recent measurement of top measurement in the forward region. \item with Run2 data ($5~\rm fb^{-1}$): \begin{itemize} \item $[\Plepton, \Pbeauty]$: expect $\sim$ $8300~\Ptop \APtop$ , $5000~\Ptop$-channel, $600~\Pstrange$ -channel, and $180~\PW \Ptop$. \item $[ \Plepton, \Plepton , \Pbeauty, \Pbeauty]$: expect $\sim$ $530~\Ptop \APtop$. \end{itemize} \end{itemize} \end{frame} \begin{frame}\frametitle{How about some precision?} \begin{columns} \column{0.05\textwidth} {~} \column{0.5\textwidth} \begin{itemize} \item One can measure the $A_{FB}$ in the $\PZ \to \Pmu \Pmu$ decays: \begin{align*} A_{FB}=\dfrac{\sigma(\cos \theta >0) - \sigma(\cos \theta <0) }{\sigma(\cos \theta >0) + \sigma(\cos \theta <0) } \end{align*} \item This is dependent on the vector and axial couplings $\Rightarrow$ $\sin \theta_W^{eff}$. \item Since LEP time there is a small tension in this measurement. \item With full Run2 data and some smart ideas we might be close to LEP! \end{itemize} \column{0.45\textwidth} \includegraphics[width=0.95\textwidth]{images/AFB_11.png}\\ \includegraphics[width=0.95\textwidth]{images/chi2.png} \end{columns} \end{frame} \begin{frame}\frametitle{Summary} \begin{itemize} \item Reach Run2 program in Electroweak measurements: \begin{enumerate} \item Drell-Yan \item Ion-Ion physics \item Cross section measurements \item Triple Gauge Couplings \item top physics \item CEP \item $\sin \theta_W^{eff}$ \end{enumerate} \end{itemize} \end{frame} \backupbegin \begin{frame}\frametitle{Backup} \end{frame} \backupend \end{document}