% 6/21/03 modified for landscape %changed \textwidth and \textheight % To make PCTeXv4 display in landscape, must start the program % from Start, Run, c:\PCTeXv4\pctexv4 /or=la % To make .pdf files in landscape mode, use dvipdfm -l filename.dvi % 6/1/00 added muon collaboration header via {dochead} % 9/26/89 K.T.M. I have created auxiliary files FIGURE.LATEX and TABLE.LATEX % that can be INCLUDEd if you want to set up a figure or table. Note that % you must provide a NAME and two CAPTIONS for each, as well as alloting % space for the figures. % We are now back to using the \UPCITE{ NAME}, \BIBITEM{ NAME } combination % for references. The numerical order of the references will be exactly % their order in the {BIBLIOGRAPHY} section. I have placed the bibliography % from the R&D proposal at the end of this file, but beyond the part LATEX % uses. Pull any references forward that you want to use. % 5/6/90 K.T.M. I have appended the useful file TXSSYMB.TEX % 5/22/97 K.T.M. added defs from revtex.sty \def\gr{\color{green}} \def\rr{\color{red}} \def\bb{\color{blue}} \def\cc{\color{cyan}} \def\mm{\color{magenta}} \def\yy{\color{yellow}} \def\bw{\color{black}} \def\babar{{\sc BaBar}} \def\({ \left( } \def\){ \right) } \def\b{\begin{equation}} \def\e{\end{equation}} \def\={\ =\ } \def\ap{\ \approx\ } \def\+{\ +\ } \def\-{\ -\ } \def\lc{\ell_c} \def\Ls{\cal L \rm} \def\ls{\cal l \rm} % The first batch of defs is from rnd_defs.tex \def\L{{\cal L}} \def\etc{{\it etc.}} \def\etal{{\it et al.}} \def\ie{{\it i.e.}} \def\vs{{\it vs.}} \def\eg{{\it e.g.}} \def\~{{$\tilde{\phantom{a}}$}} \def\lunit{cm$^{-2}$sec$^{-1}$} \def\PT{$P_t$\ } \def\bu{$B_u$\ } \def\bd{$B_d$\ } \def\bs{$B_s$\ } \def\CP{$CP$\ } \def\UP{$\Upsilon(4s)\ $} \def\ee{$e^+e^-$\ } \def\mumu{$\mathbf \mu^+\mathbf\mu^-$} \def\BB{$B$-$\overline B$\ } \def\bbbar{\mbox{$b\overline b$}} \def\ccbar{\mbox{$c\overline c$}} \def\Jpsi{\mbox{$J\!/\!\psi$}} \def\nbsm{{{\overline \mathbf\nu}_\mathbf\mu}} \def\nbse{{{\overline \mathbf\nu}_e}} \def\nbst{{{\overline \mathbf\nu}_\mathbf\tau}} \def\nsm{\mathbf\nu_\mathbf\mu} \def\nse{\mathbf\nu_e} \def\nst{\mathbf\nu_\mathbf\tau} \def\mics{$\mu$ secs} \def\Abar{{\overline a}} \def\Abar{{\overline A}} \def\bbar{{\overline b}} \def\Bbar{{\overline B}} \def\Cbar{{\overline C}} \def\Sbar{{\overline S}} \def\ubar{{\overline u}} \def\dbar{{\overline d}} \def\sbar{{\overline s}} \def\cbar{{\overline c}} \def\Dbar{{\overline D}} \def\Kbar{{\overline K}} \def\fbar{{\overline f}} \def\pbar{{\overline p}} \def\qbar{{\overline q}} \def\tbar{{\overline t}} \def\Xbar{{\overline X}} \def\mbar{{\overline m}} \def\Mbar{{\overline M}} \def\alphabar{{\overline\mathbf\alpha}} \def\rhobar{{\overline\mathbf\rho}} \def\Gammabar{{\overline\mathbf\Gamma}} \def\phibar{{\overline \mathbf\phi}} \def\nubar{{\overline \mathbf\nu}} \def\ind{{\phantom{a}\hspace{0.5in}}} % the following put a bar in parenthesis over the symbol \def\barB{{\parenbar{B}}} \def\barBo{{\parenbar{B}{^0}}} \def\barBoq{{\parenbar{B}{^0_q}}} \def\barf{{\parenbar{f}}} \def\baralpha{{\parenbar{\mathbf\alpha}}} %\documentstyle [12pt] {article} \documentclass [12pt] {dochead_dayabay} \usepackage{epsfig} \usepackage{color} \input tcilatex %to get bold greek \newcommand{\postscript}[2] {\setlength{\epsfxsize}{#2\hsize} \centerline{\epsfbox{#1}}} \voffset=-0.5truein % set to 0.5 from 0, 8/22/96; back to 0, 10/18/96 \textwidth=10truein \oddsidemargin=-0.5truein \evensidemargin=-0.5truein \textheight=7.5truein \setlength{\topmargin}{-0.truein} \headheight=0.truein \headsep=0.7truein % \headsep=0.7truein \footskip=0.2truein \renewcommand{\topfraction}{0.9} \renewcommand{\bottomfraction}{0.9} \renewcommand{\textfraction}{0.1} \renewcommand{\floatpagefraction}{0.9} \renewcommand{\arraystretch}{1.5} \def\thebibliography#1{\section{References}\markboth {REFERENCES}{REFERENCES}\list {[\arabic{enumi}]}{\settowidth\labelwidth{[#1]}\leftmargin\labelwidth \advance\leftmargin\labelsep \usecounter{enumi}} \def\newblock{\hskip .11em plus .33em minus -.07em} \sloppy \sfcode`\.=1000\relax} \def\upcite#1{\raise6pt\hbox{\scriptsize \cite{#1}}} %\pagestyle{plain} % more DEFINITIONS \def\lsim{\mathrel {\vcenter {\baselineskip 0pt \kern 0pt \hbox{$<$} \kern 0pt \hbox{$\sim$} }}} \def\gsim{\mathrel {\vcenter {\baselineskip 0pt \kern 0pt \hbox{$>$} \kern 0pt \hbox{$\sim$} }}} \newcommand{\PR}[3]{Phys\@. Rev\@. {\bf #1}, #2 (19#3)} \newcommand{\PL}[3]{Phys\@. Lett\@. {\bf #1}, #2 (19#3)} \newcommand{\NP}[3]{Nucl\@. Phys\@. {\bf #1}, #2 (19#3)} \newcommand{\PRL}[3]{Phys\@. Rev\@. Lett\@. {\bf #1}, #2 (19#3)} \newcommand{\Rep}[3]{Phys\@. Rep\@. {\bf #1}, #2 (19#3)} \newcommand{\RMP}[3]{Rev\@. Mod\@. Phys\@. {\bf #1}, #2 (19#3)} \def\rtr{\rightarrow} \def\x{\times} \def\q{\quad} \def\qq{\qquad} \def\skp{\vspace{1em}} \def\sskp{\vspace{1.5em}} \def\ssskp{\vspace{2em}} \def\nbsme{{\bar \nu}_{\mu e}} %\def\ee{\mbox{$e^+ e^-$}} \def\fts{\footnotesize} \def\m{\mbox} \def\p{\phantom} \newcommand{\con}[3]{ #1:#2 (19#3)} \newcommand{\conn}[4]{ {\bf #1}, #2, #3, (19#4)} % I turned these off, K.T.M. 9/26/89 \setlength{\topmargin}{-12mm} %\setlength{\oddsidemargin}{0mm} %\setlength{\textheight}{224mm} %\setlength{\textwidth}{164mm} %\def\baselinestretch{1.5} \def\r{\\ [2pt]} % used in tabular or array environments \def\s{\\ [-8pt]} % use in tables for smaller vertical spacing \def\t{\\ [-11pt]} % use in tables for smaller vertical spacing \def\hline{\noalign{\hrule \vskip2pt}} % file: TXSsymb.tex TeXsis version 2.13 %====================================================================== % EXTENDED MATH SYMBOLS FOR PHYSICS % % This file defines extensions to the symbols in Plain TeX that are % generally useful for physics papers, espacially for high energy physics. % See the comments for each definition. % %----------------------------------------------------------------------- %\message{Extended math symbols.} %\newdimen\vbigd@men % for \vbig \def\|{\ifmmode\Vert\else \char`\|\fi} %----------------------------------------------------------------------- % Raise \chi and \zeta so they do not have descenders. This looks % better in formulae. \ifx\oldzeta\undefined % hasn't been done yet, so \let\oldzeta=\zeta % save old definiton \def\zzeta{{\raise 2pt\hbox{$\oldzeta$}}} % make new definition \let\zeta=\zzeta % and attatch it \fi \ifx\oldchi\undefined % hasn't been done yet, so \let\oldchi=\chi % save old definiton \def\cchi{{\raise 2pt\hbox{$\oldchi$}}} % make new definition \let\chi=\cchi % and attatch it \fi %----------------------------------------------------------------------- % Various special symbols. % ---------- Gradient, etc. \def\square{\hbox{{$\sqcup$}\llap{$\sqcap$}}} % box \def\grad{\nabla} % gradient \def\del{\partial} % synonym for \partial % ---------- Fractions. \def\frac#1#2{{#1 \over #2}} \def\smallfrac#1#2{{\scriptstyle {#1 \over #2}}} \def\half{\ifinner {\scriptstyle {1 \over 2}} \else {1 \over 2} \fi} % ---------- Bras and kets, etc. \def\bra#1{\langle#1\vert} % \bra{stuff} gives \def\ave#1{\left\langle#1\right\rangle} % \ave{stuff} gives \def\amp#1#2{\langle#1\vert#2\rangle} % \amp{a,b} gives \def\opamp#1#2#3{\langle#1\vert#2\vert#3\rangle} % \opamp{a,b,c} gives \def\abs#1{\left\vert#1\right\vert} % \abs{stuff} gives |stuff| \def\ret#1{\left[#1\right]} % \ret{stuff} gives [stuff] % \simge and \simle make the "greater than about" and the "less % than about" symbols with spacing as relations. \def\simge{\mathrel{% \rlap{\raise 0.511ex \hbox{$>$}}{\lower 0.511ex \hbox{$\sim$}}}} \def\simle{\mathrel{ \rlap{\raise 0.511ex \hbox{$<$}}{\lower 0.511ex \hbox{$\sim$}}}} % \parenbar puts a bar in small parentheses over a character to % indicate an optional antiparticle. \nunubar and \ppbar are special % cases. \def\parenbar#1{{\null\! % left-hand spacing \mathop#1\limits^{\hbox{\tiny (--)}} % (--) in 5pt type % for LaTeX I changer \fiverm to \tiny \!\null}} % right-hand spacing %\def\nunubar{\parenbar{\nu}} % disarmed by ktm %\def\ppbar{\parenbar{p}} % disarmed by ktm % \buildchar makes a compound symbol, placing #2 above #1 and #3 % below it with \limits. \overcirc is a special case. \def\buildchar#1#2#3{{\null\! % \null, cancel space \mathop#1\limits^{#2}_{#3} % #1, #2 above, #3 below \!\null}} % cancel space, \null \def\overcirc#1{\buildchar{#1}{\circ}{}} % \slashchar puts a slash through a character to represent contraction % with Dirac matrices. Use \not instead for negation of relations, and use % \hbar for hbar. \def\slashchar#1{\setbox0=\hbox{$#1$} % set a box for #1 \dimen0=\wd0 % and get its size \setbox1=\hbox{/} \dimen1=\wd1 % get size of / \ifdim\dimen0>\dimen1 % #1 is bigger \rlap{\hbox to \dimen0{\hfil/\hfil}} % so center / in box #1 % and print #1 \else % / is bigger \rlap{\hbox to \dimen1{\hfil$#1$\hfil}} % so center #1 / % and print / \fi} % % \subrightarrow#1 puts the text #1 under an arrow of the % appropriate length. \def\subrightarrow#1{% % #1 under arrow \setbox0=\hbox{% % set a box $\displaystyle\mathop{}% % no mathop \limits_{#1}$}% % just limits \dimen0=\wd0% % get width \advance \dimen0 by .5em% % add a bit \mathrel{% % space like = \mathop{\hbox to \dimen0{\rightarrowfill}}% % arrow to width \limits_{#1}}} % text below % \vbig produces very (or variably) big delimiters. The syntax is % \vbigl or \vbigr, where is any delimiter % and is any valid dimension in pt, cm, in,.... There is also a % \vbigm for (middle) relations. %\def\vbigl{\mathopen\vbig} %\def\vbigm{\mathrel\vbig} %\def\vbigr{\mathclose\vbig} %\def\vbig#1#2{{\vbigd@men=#2\divide\vbigd@men by 2% %\hbox{$\left#1\vbox to \vbigd@men{}\right.\n@space$}}} % \Leftcases and \Rightcases are just \vbig \{ or \} with \smash. These % can be used to make constructions like \cases with a nuumber on each % line, but the spacing is NOT automatic. %\def\Leftcases#1{\smash{\vbigl\{{#1}}} %\def\Rightcases#1{\smash{\vbigr\}{#1}}} % ---------- Functions -- all defined like \sin, etc. in Plain TeX: \def\real{\mathop{\rm Re}\nolimits} % Re for real part \def\imag{\mathop{\rm Im}\nolimits} % Im for imaginary part \def\tr{\mathop{\rm tr}\nolimits} % tr for trace \def\Tr{\mathop{\rm Tr}\nolimits} % Tr for functional trace \def\Det{\mathop{\rm Det}\nolimits} % Det for functional determinant \def\mod{\mathop{\rm mod}\nolimits} % mod for modulo \def\wrt{\mathop{\rm wrt}\nolimits} % wrt for with respect to % ---------- Abbreviations for units \def\TeV{{\rm TeV}} % 10^12 electron volts \def\GeV{{\rm GeV}} % 10^9 electron volts \def\MeV{{\rm MeV}} % 10^6 electron volts \def\KeV{{\rm KeV}} % 10^3 electron volts \def\eV{{\rm eV}} % 1 electron volt \def\mb{{\rm mb}} % 10^-27 cm^2 \def\mub{\hbox{$\mu$b}} % 10^-30 cm^2 \def\nb{{\rm nb}} % 10^-33 cm^2 \def\pb{{\rm pb}} % 10^-36 cm^2 % >>> EOF TXSsymb.tex <<< % ****** Start of file revtex.sty ****** % % % This file is part of the APS files in the REVTeX 3.0 distribution. % Version 3.0 of REVTeX, November 10, 1992. % % Copyright (c) 1992 The American Physical Society. % % See the REVTeX 3.0 README file for restrictions and more information. % %\typeout{Filename: revtex.sty, v3.0 <27 October 92>} \def\overlay#1#2{\ifmmode% \setbox0=\hbox{$#1$}% \setbox1=\hbox to\wd0{\hss$#2$\hss}\else% \setbox0=\hbox{#1}% \setbox1=\hbox to\wd0{\hss#2\hss}\fi% #1\hskip-\wd0\box1 } \def\pmb#1{\leavevmode\setbox0=\hbox{#1}% \kern-.02em\copy0\kern-\wd0 \kern.04em\copy0\kern-\wd0 \kern-.02em\raise.04em\box0 } \def\Bigglb#1{\leavevmode\hbox{\pmb{$\Biggl#1$}}} \def\Biglb#1{\leavevmode\hbox{\pmb{$\Bigl#1$}}} \def\bigglb#1{\leavevmode\hbox{\pmb{$\biggl#1$}}} \def\biglb#1{\leavevmode\hbox{\pmb{$\bigl#1$}}} \def\Biggrb#1{\leavevmode\hbox{\pmb{$\Biggr#1$}}} \def\Bigrb#1{\leavevmode\hbox{\pmb{$\Bigr#1$}}} \def\biggrb#1{\leavevmode\hbox{\pmb{$\biggr#1$}}} \def\bigrb#1{\leavevmode\hbox{\pmb{$\bigr#1$}}} \def\lesssim{\mathrel{\mathpalette\vereq<}} \def\vereq#1#2{\lower3pt\vbox{\baselineskip1.5pt \lineskip1.5pt \ialign{$\m@th#1\hfill##\hfil$\crcr#2\crcr\sim\crcr}}} \def\gtrsim{\mathrel{\mathpalette\vereq>}} \def\alt{\lesssim} \def\agt{\gtrsim} \def\tensor#1{\protect\@ontopof{#1}{\leftrightarrow}{1.15}\mathord{\box2}} \def\overstar#1{\protect\@ontopof{#1}{\ast}{1.15}\mathord{\box2}} \def\overdots#1{\protect\@ontopof{#1}{\cdots}{1.0}\mathord{\box2}} \def\overcirc#1{\protect\@ontopof{#1}{\circ}{1.2}\mathord{\box2}} \def\loarrow#1{\protect\@ontopof{#1}{\leftarrow}{1.15}\mathord{\box2}} \def\roarrow#1{\protect\@ontopof{#1}{\rightarrow}{1.15}\mathord{\box2}} \def\@ontopof#1#2#3{% {\mathchoice {\@@ontopof{#1}{#2}{#3}\displaystyle\scriptstyle}% {\@@ontopof{#1}{#2}{#3}\textstyle\scriptstyle}% {\@@ontopof{#1}{#2}{#3}\scriptstyle\scriptscriptstyle}% {\@@ontopof{#1}{#2}{#3}\scriptscriptstyle\scriptscriptstyle}% }% } \def\@@ontopof#1#2#3#4#5{% \setbox0=\hbox{$#4#1$}% \setbox1=\hbox{$#5#2$}% \setbox2=\hbox{}\ht2=\ht0 \dp2=\dp0 % \ifdim\wd0>\wd1 % \setbox1=\hbox to\wd0{\hss\box1\hss}% \mathord{\rlap{\raise#3\ht0\box1}\box0}% \else % \setbox1=\hbox to.9\wd1{\hss\box1\hss}% \setbox0=\hbox to\wd1{\hss$#4\relax#1$\hss}% \mathord{\rlap{\copy0}\raise#3\ht0\box1}% \fi }% \def\lambdabar{\protect\@lambdabar} \def\@lambdabar{% \relax \bgroup \def\@tempa{\hbox{\raise.73\ht0 \hbox to0pt{\kern.25\wd0\vrule width.5\wd0 height.1pt depth.1pt\hss}\box0}}% \mathchoice{\setbox0\hbox{$\displaystyle\lambda$}\@tempa}% {\setbox0\hbox{$\textstyle\lambda$}\@tempa}% {\setbox0\hbox{$\scriptstyle\lambda$}\@tempa}% {\setbox0\hbox{$\scriptscriptstyle\lambda$}\@tempa}% \egroup } \def\corresponds{{\lower.2ex\hbox{=}}{\rm\kern-.75em^\triangle}} \def\succsim{\succ\kern-.9em_\sim\kern.3em} \def\precsim{\prec\kern-1em_\sim\kern.3em} \def\slantfrac#1#2{\kern1em^{#1}\kern-.3em/\kern-.1em_{#2}}