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authorKarl Berry <karl@freefriends.org>2024-06-29 20:00:37 +0000
committerKarl Berry <karl@freefriends.org>2024-06-29 20:00:37 +0000
commitfc98a758849cdf5f3cda46b8d328715ddb2efa6f (patch)
tree328cc75e454c0fb89855a1e35ae7b3b5fdfe406d /Master
parent921f7b11d86ee925974a6fd4e7163b8571f1789a (diff)
pst-diffraction (29jun24)
git-svn-id: svn://tug.org/texlive/trunk@71657 c570f23f-e606-0410-a88d-b1316a301751
Diffstat (limited to 'Master')
-rw-r--r--Master/texmf-dist/doc/generic/pst-diffraction/Changes4
-rw-r--r--Master/texmf-dist/doc/generic/pst-diffraction/README10
-rw-r--r--Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-doc.pdfbin0 -> 22756751 bytes
-rw-r--r--Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-doc.tex (renamed from Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-docE.tex)172
-rw-r--r--Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-docDE.pdfbin828505 -> 0 bytes
-rw-r--r--Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-docDE.tex495
-rw-r--r--Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-docE.pdfbin799677 -> 0 bytes
-rw-r--r--Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-docFR.pdfbin813332 -> 0 bytes
-rw-r--r--Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-docFR.tex483
-rw-r--r--Master/texmf-dist/source/generic/pst-diffraction/Makefile55
-rw-r--r--Master/texmf-dist/tex/generic/pst-diffraction/pst-diffraction.tex18
-rw-r--r--Master/texmf-dist/tex/latex/pst-diffraction/pst-diffraction.sty2
12 files changed, 88 insertions, 1151 deletions
diff --git a/Master/texmf-dist/doc/generic/pst-diffraction/Changes b/Master/texmf-dist/doc/generic/pst-diffraction/Changes
index d5cad1459f4..9f4fe42b2ba 100644
--- a/Master/texmf-dist/doc/generic/pst-diffraction/Changes
+++ b/Master/texmf-dist/doc/generic/pst-diffraction/Changes
@@ -1,4 +1,8 @@
pst-diffraction.tex --------
+2.04a 2024-06-29 - bugfix for the documentation header
+ - removed german and french docs
+2.04 2010-01-05 - fix bug with missing \space for keywords
+ from pst-3dplot
2.03 2008-09-03 - fix compatibility bug with pst-3d
(\variablesIIID no more valid)
2.02 2007-09-25 - add IIID option for all macros
diff --git a/Master/texmf-dist/doc/generic/pst-diffraction/README b/Master/texmf-dist/doc/generic/pst-diffraction/README
index e642ddc6fb1..86d7c0bb597 100644
--- a/Master/texmf-dist/doc/generic/pst-diffraction/README
+++ b/Master/texmf-dist/doc/generic/pst-diffraction/README
@@ -3,7 +3,7 @@
%% Manuel Luque (ml _at_ pstricks.de) (France)
%% Herbert Voss (hv _at_ pstricks.de) (Germany)
%%
-%% 2007-09-04
+%% 2024-06-29
%%
PSTricks offers excellent macros to insert more or less complex
@@ -41,10 +41,10 @@ the images are very big.
If you like to get the documentation file in another format run
-latex pst-diffraction-docX.tex
-bibtex pst-diffraction-docX
-latex pst-diffraction-docX.tex
-dvips pst-diffraction-docX.dvi
+latex pst-diffraction-doc.tex
+bibtex pst-diffraction-doc
+latex pst-diffraction-doc.tex
+dvips pst-diffraction-doc.dvi
to get a PostScript file. But pay attention, that the pst-diffraction
files are saved in the above mentioned way, before you run
diff --git a/Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-doc.pdf b/Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-doc.pdf
new file mode 100644
index 00000000000..33256a5b76f
--- /dev/null
+++ b/Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-doc.pdf
Binary files differ
diff --git a/Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-docE.tex b/Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-doc.tex
index 1dc2d35e4c3..f38f06f02e3 100644
--- a/Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-docE.tex
+++ b/Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-doc.tex
@@ -1,76 +1,45 @@
-\documentclass[dvips,english,a4paper]{article}
-\usepackage[utf8]{inputenc}%
-\usepackage[T1]{fontenc}
-\usepackage[bmargin=2cm,tmargin=2cm]{geometry}
-%
-\usepackage{pstricks,pst-node,pst-grad,url}
-\usepackage{pst-diffraction}
-\let\PSTfileversion\fileversion
-\let\PSTfiledate\filedate
-%
-\usepackage{ccfonts}
-\usepackage[euler-digits]{eulervm}
-\usepackage[scaled=0.85]{luximono}
-\usepackage{xspace}
-\newcommand*\psp{\texttt{pspicture}\xspace}
-\def\UrlFont{\small\ttfamily}
-\makeatletter
-\def\verbatim@font{\small\normalfont\ttfamily}
-\makeatother
-\usepackage{prettyref,multicol}
-\usepackage{fancyhdr}
-\usepackage{showexpl}
+%% $Id: pst-diffraction-docE.tex 134 2009-09-27 12:28:50Z herbert $
+\documentclass[11pt,english,BCOR10mm,DIV12,bibliography=totoc,parskip=false,smallheadings,
+ headexclude,footexclude,oneside]{pst-doc}
+\usepackage{pst-grad,pst-diffraction}
+\let\pstDiffractionFV\fileversion
+
+\usepackage{libertinus}
+\usepackage{biblatex}
+\addbibresource{pst-diffraction-doc.bib}
+
+\lstset{pos=t,wide=true,language=PSTricks,
+ morekeywords={psdiffractionRectangle,psdiffractionCircle,psdiffractionCircular},basicstyle=\footnotesize\ttfamily}
\lstdefinestyle{syntax}{backgroundcolor=\color{blue!20},numbers=none,xleftmargin=0pt,xrightmargin=0pt,
frame=single}
\lstdefinestyle{example}{backgroundcolor=\color{red!20},numbers=none,xleftmargin=0pt,xrightmargin=0pt,
frame=single}
-\lstset{wide=true,language=PSTricks,
- morekeywords={psdiffractionCircular,psdiffractionRectangle,psdiffractionTriangle}}
-
-\usepackage{babel}
-\usepackage[colorlinks,linktocpage]{hyperref}
-
-\pagestyle{fancy}
-\def\Lcs#1{{\ttfamily\textbackslash #1}}
-\lfoot{\small\ttfamily\jobname.tex}
-\cfoot{Documentation}
-\rfoot{\thepage}
-\lhead{PSTricks}
-\renewcommand{\headrulewidth}{0pt}
-\renewcommand{\footrulewidth}{0pt}
-\newcommand{\PS}{PostScript}
-\newcommand\CMD[1]{\texttt{\textbackslash#1}}
-\makeatother
-\usepackage{framed}
-\definecolor{shadecolor}{cmyk}{0.2,0,0,0}
-\SpecialCoor
-
-\title{\texttt{pst-diffraction}\\[6pt]
-Diffraction patterns for diffraction from circular, rectangular and triangular
-apertures
-\\[1cm]
----\\[10pt]
-{\normalsize v. \PSTfileversion (\PSTfiledate)}}
-\author{%
- \tabular[t]{c}Manuel Luque\\[3pt]
- \url{ml@PSTricks.de}
- \endtabular \and
- \tabular[t]{c}Herbert Vo\ss\\[3pt]
- \url{hv@PSTricks.de}\endtabular%
-}
-\date{\today}
+\newcommand*\psp{\texttt{pspicture}\xspace}
+%
\begin{document}
-\maketitle
-\vfill\noindent
-Thanks to Doris Wagner for help with the documentation.\\
-Also thanks to: Julien Cubizolles.
+\title{\texttt{pst-diffraction}}
+\subtitle{Diffraction patterns for diffraction from circular, rectangular and triangular
+apertures; v.\pstDiffractionFV}
+\author{Manuel Luque \\ Herbert Vo\ss}
+\docauthor{Herbert Voß}
+\date{\today}
+\maketitle
-\clearpage
\tableofcontents
\clearpage
+\begin{abstract}
+\noindent
+
+\vfill\noindent
+Thanks to: Julien Cubizolles,
+Doris Wagner,
+Timothy Van Zandt, Keno Wehr,
+Michael Zedler.
+\end{abstract}
+
\section{Optical setup}
\begin{center}
@@ -124,24 +93,22 @@ of the light (the associated color will be given automatically by the package).
There are three commands, for rectangular, circular and triangular openings respectively:
-\begin{lstlisting}[style=syntax]
-\psdiffractionRectangle[<Optionen>]
-\psdiffractionCircular[<Optionen>]
-\psdiffractionTriangle[<Optionen>]
-\end{lstlisting}
+\begin{BDef}
+\Lcs{psdiffractionRectangle}\OptArgs\\
+\Lcs{psdiffractionCircular}\OptArgs\\
+\Lcs{psdiffractionTriangle}\OptArgs
+\end{BDef}
\section{The color}
The desired color is defined by specifying the associated wavelength $\lambda$ (in nanometers).
-Red for instance one gets by the option \texttt{[lambda=632]} because
+Red for instance one gets by the option \Lkeyword{lambda}=632 because
red light has the wavelength $\lambda_{\textrm{rot}}=632\,\textrm{nm}$.
The conversion of the wavelength into the associated \texttt{RGB}-value is done by PostScript.
The code is similar to the code of a FORTRAN program which can be found here: \\
\url{http://www.midnightkite.com/color.html}
-\clearpage
-
\section{Diffraction from a rectangular aperture}
\begin{center}
@@ -154,23 +121,23 @@ The code is similar to the code of a FORTRAN program which can be found here: \\
\end{pspicture}
\end{center}
-The width of the rectangle with the area $h=k\times a$ is defined by the letter \texttt{[a]},
-the height by \texttt{[k]}.
-The focal length is specified by \texttt{[f]}, the desired resolution in pixels [pixel].
-With the option \texttt{[contrast]} one can improve the visibility of the minor secondary
-maxima more.\\
-We get a black and white picture if we use the option \texttt{[colorMode=0]},
-the option \texttt{[colorMode=1]} provides the associated negative pattern. The options
-\texttt{[colorMode=2]} and \texttt{[colorMode=3]} render color pictures in the
-CMYK and RGB color model respectively.
+The width of the rectangle with the area $h=k\times a$ is defined by the letter \Lkeyword{a},
+the height by \Lkeyword{k}.
+The focal length is specified by \Lkeyword{f}, the desired resolution in pixels [pixel].
+With the option \Lkeyword{contrast} one can improve the visibility of the minor secondary
+maxima more.
+We get a black and white picture if we use the option \Lkeyword{colorMode}=0,
+the option \Lkeyword{colorMode}=1 provides the associated negative pattern. The options
+\Lkeyword{colorMode}=2 and \Lkeyword{colorMode}=3 render color pictures in the
+\Index{CMYK} and \Index{RGB} color model respectively.
By default the settings are as follows:
\begin{tabular}{@{}lll@{}}
-\texttt{[a=0.2e-3]} in m; & \texttt{[k=1]}; & \texttt{[f=5]} in m;\\
-\texttt{[lambda=650]} in nm; & \texttt{[pixel=0.5]}; & \texttt{[contrast=38]}, greates value;\\
-\texttt{[colorMode=3]}; & \texttt{[IIID=false]}.
+\Lkeyword{a}=0.2e-3 in m; & \Lkeyword{k}=1; & \Lkeyword{f}=5 in m;\\
+\Lkeyword{lambda}=650 in nm; & \Lkeyword{pixel}=0.5; & \Lkeyword{contrast}=38, greates value;\\
+\Lkeyword{colorMode}=3; & \Lkeyword{IIID}=\false.
\end{tabular}
\bigskip
@@ -256,15 +223,11 @@ By default the settings are as follows:
\end{pspicture}
\end{lstlisting}
-\section{Diffraction from two rectangular apertures}
-
-\begin{shaded}
-This simulation was provided by Julien
-\textsc{Cubizolles}.
-\end{shaded}
+\section[Diffraction from two rectangular apertures]{Diffraction from two rectangular apertures%
+\protect\footnote{This simulation was provided by Julien Cubizolles.}}
It is also possible to render the diffraction pattern of two congruent rectangles
(placed parallel such that their base is located on the $x$-axis)
-by using the option \texttt{[twoSlit]}.
+by using the option \Lkeyword{twoSlit}.
By default this option is deactivated.
The distance of the two rectangles is specified by the option $s$.
The default for $s$ is $12e^{-3}\,\mathrm{m}$.
@@ -301,10 +264,10 @@ The default for $s$ is $12e^{-3}\,\mathrm{m}$.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\section{Diffraction from a circular aperture}
-The radius of the circular opening can be chosen via the letter \texttt{r}, e.g.
-\texttt{[r=1e-3]}. The default is $r=1$ mm. In the first quadrant
+The radius of the circular opening can be chosen via the letter \Lkeyword{r}, e.g.
+\Lkeyword{r}=1e-3. The default is $r=1$ mm. In the first quadrant
PSTricks displays the graph of the intensity distribution (the maximum in the center will be
-cropped if its height exceeds the margin of the \psp-environment).
+cropped if its height exceeds the margin of the environment \Lenv{pspicture*}).
\hspace*{-1cm}%
\begin{LTXexample}[pos=t,style=example,wide=false]
@@ -321,10 +284,10 @@ cropped if its height exceeds the margin of the \psp-environment).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\section{Diffraction from two circular apertures}
Only the case of equal radii is provided, this common radius can be defined like in the
-previous section via \texttt{[r=\dots]}.
+previous section via \Lkeyword{r}=\dots.
Furthermore one has to give the half distance of the circles measured from their centers by
-\texttt{[d=\dots]}, e.g. \texttt{[d=3e-3]}. Also the option
-\texttt{[twoHole]} has to be used.\\
+\Lkeyword{d}=\dots, e.g. \Lkeyword{d}=3e-3. Also the option
+\Lkeyword{twoHole} has to be used.\\
The rendering process could take some time in this case\dots
@@ -397,10 +360,10 @@ or $d=\frac{2r}{1.22}$ (see
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\section{Diffraction from a triangular aperture}
-Only the case of an equilateral triangle is provided, whose height \texttt{[h]} has to be
+Only the case of an equilateral triangle is provided, whose height \Lkeyword{h} has to be
defined as an option. As is generally known, $h$ can be computed from the length $s$ of
its side by $h=\frac{\sqrt{3}}{2}s$. A black and white picture can be obtained by using the
-option \texttt{[colorMode=0]}.
+option \Lkeyword{colorMode}=0.
@@ -470,16 +433,19 @@ option \texttt{[colorMode=0]}.
+\clearpage
+\section{List of all optional arguments for \texttt{pst-diff}}
+\Loption{pst-diff} is the short form for the keywords in the package \LPack{pst-diffraction}.
+
+\xkvview{family=pst-diff,columns={key,type,default}}
-%\section{Credits}
-\bgroup
-\nocite{*}
\raggedright
-\bibliographystyle{plain}
-\bibliography{pst-diffraction-doc}
-\egroup
+\nocite{*}
+\printbibliography
+%\bibliography{pst-diffraction-doc}
+\printindex
\end{document}
diff --git a/Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-docDE.pdf b/Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-docDE.pdf
deleted file mode 100644
index 08199e91ec2..00000000000
--- a/Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-docDE.pdf
+++ /dev/null
Binary files differ
diff --git a/Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-docDE.tex b/Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-docDE.tex
deleted file mode 100644
index 27f528fcff0..00000000000
--- a/Master/texmf-dist/doc/generic/pst-diffraction/pst-diffraction-docDE.tex
+++ /dev/null
@@ -1,495 +0,0 @@
-\documentclass[ngerman,a4paper]{article}
-\usepackage[T1]{fontenc}
-\usepackage[utf8]{inputenc}
-\usepackage[bmargin=2cm,tmargin=2cm]{geometry}
-%
-\usepackage{pstricks,pst-node,pst-grad,url}
-\usepackage{pst-diffraction}
-\let\PSTfileversion\fileversion
-\let\PSTfiledate\filedate
-%
-\usepackage{ccfonts}
-\usepackage[euler-digits]{eulervm}
-\usepackage[scaled=0.85]{luximono}
-\usepackage{xspace}
-\def\UrlFont{\small\ttfamily}
-\newcommand*\psp{\texttt{pspicture}\xspace}
-\makeatletter
-\def\verbatim@font{\small\normalfont\ttfamily}
-\makeatother
-\usepackage{showexpl}
-\lstdefinestyle{syntax}{backgroundcolor=\color{blue!20},numbers=none,xleftmargin=0pt,xrightmargin=0pt,
- frame=single}
-\lstdefinestyle{example}{backgroundcolor=\color{red!20},numbers=none,xleftmargin=0pt,xrightmargin=0pt,
- frame=single}
-\lstset{wide=true,language=PSTricks,
- morekeywords={psdiffractionCircular,psdiffractionRectangle,psdiffractionTriangle}}
-
-
-\usepackage{prettyref}
-\usepackage{fancyhdr}
-\usepackage{multicol}
-
-\usepackage{babel}
-\usepackage[colorlinks,linktocpage]{hyperref}
-
-\pagestyle{fancy}
-\def\Lcs#1{{\ttfamily\textbackslash #1}}
-\lfoot{\small\ttfamily\jobname.tex}
-\cfoot{Documentation}
-\rfoot{\thepage}
-\lhead{PSTricks}
-\renewcommand{\headrulewidth}{0pt}
-\renewcommand{\footrulewidth}{0pt}
-\newcommand{\PS}{PostScript}
-\newcommand\CMD[1]{\texttt{\textbackslash#1}}
-\makeatother
-\usepackage{framed}
-\definecolor{shadecolor}{cmyk}{0.2,0,0,0}
-\SpecialCoor
-
-\title{\texttt{pst-diffraction}\\[6pt]
-\mbox{}\\[1cm]
-Beugungsmuster für Beugung an kreisförmigen, rechteckigen und dreieckigen
-Öffnungen\\[10pt]
----\\[10pt]
-{\normalsize v. \PSTfileversion (\PSTfiledate)}}
-\author{%
- \tabular[t]{c}Manuel Luque\\[3pt]
- \url{ml@PSTricks.de}
- \endtabular \and
- \tabular[t]{c}Herbert Vo\ss\\[3pt]
- \url{hv@PSTricks.de}\endtabular%
-}
-\date{\today}
-\begin{document}
-\maketitle
-\vfill
-Dank an Doris Wagner für die Übersetzung der Dokumentation.\\
-Beiträge und Anmerkungen lieferten: Julien Cubizolles.
-
-\clearpage
-\tableofcontents
-\clearpage
-
-
-\section{Versuchsaufbau}
-
-\begin{center}
-\begin{pspicture}(0,-3)(12,3)
-\pnode(0,0){S} \pnode(4,1){L'1} \pnode(4,-1){L'2} \pnode(6,1){E'1} \pnode(6,-1){E'2}
-\pnode(6,0.5){E1}\pnode(6,-0.5){E2}\pnode(8.5,1.5){L1}\pnode(8.5,0.5){L2}\pnode(11.5,1.25){P}
-\pspolygon[linestyle=none,fillstyle=vlines,
- hatchcolor=yellow](S)(L'1)(E'1)(E1)(L1)(P)(L2)(E2)(E'2)(L'2)
-% lentille L'
-\pscustom[fillstyle=gradient,linecolor=blue,gradend=white]{%
- \code{0.5 0.83333 scale}
- \psarc(4,0){4.176}{-16.699}{16.699}
- \psarc(12,0){4.176}{163.30}{196.699}}
-% lentille L
-\pscustom[fillstyle=gradient,linecolor=blue,gradend=white]{%
- \code{1 1.5 scale}
- \psarc(4.5,0){4.176}{-16.699}{16.699}
- \psarc(12.5,0){4.176}{163.30}{196.699}}
-\uput[90](4,1){$L'$}\uput[90](8.5,2){$L$}
-\psdot(S)\uput[180](S){S}
-\psline(S)(12,0)\psline[linewidth=2\pslinewidth](6,2)(6,0.5)\psline[linewidth=2\pslinewidth](6,-2)(6,-0.5)
-\psline[linestyle=dashed](6,0.5)(6,-0.5)\psline(11.5,-3)(11.5,3)\psline(S)(L'1)(E'1)\psline(S)(L'2)(E'2)
-\uput[0](P){P}
-\psline(E1)(L1)(P)\psline(E2)(L2)(P)\psline[linestyle=dashed](8.5,0)(P)
-%\rput(8.5,0){\psarc{->}(0,0){1.5}{0}{!1.25 3 atan}\uput[0](1.5;15){$\theta$}}
-\uput[-90](10,0){$f$}\uput[0](6,2){E}\uput[135](6,0){T}\uput[45](11.5,0){O}
-\end{pspicture}
-\end{center}
-
-Das von der punktförmigen Lichtquelle S ausgehende monochromatische Licht verlässt die
-Sammellinse L' achsenparallel und trifft auf die Blende E mit der Öffnung T.
-Das Licht wird an der Öffnung gebeugt:
-Jeder Punkt in der Öffnung wirkt als punktförmige Lichtquelle (Huygens'sches Prinzip) und es entsteht ein
-Interferenzmuster (Beugungsmuster), welches auf einem Schirm beobachtet werden kann. Ist der Schirm von der
-Blende hinreichend weit entfernt, so spricht man von Fraunhofer'scher Beugung.
-In diesem Fall kann man annehmen, da"s alle Lichtstrahlen, die von der Öffnung her kommen und
-denselben Punkt P auf dem Schirm treffen, parallel verlaufen.\\
-In der Praxis will man den Abstand zwischen Schirm und Blende klein halten. Deshalb
-wird zwischen die Blende und den Schirm eine Sammellinse L montiert und der
-Schirm (in der Zeichnung enthält er die Punkte P und O) in die Brennebene dieser Linse gestellt.
-Links von der Linse parallel verlaufende Lichtstrahlen werden dann im Punkt P in der Brennebene
-fokussiert.
-
-Die folgenden PSTricks-Befehle ermöglichen es, Beugungsmuster für
-verschiedene Formen von Blendenöffnungen zu erstellen. Dabei wird die Verwendung von monochromatischem
-Licht vorausgesetzt. Die Blenden können eine rechteckige, kreisförmige oder
-dreieckige Öffnung haben.
-
-Als mögliche Optionen für die Befehle hat man die Abmessungen, die sich aus dem jeweiligen
-Versuchsaufbau ergeben, etwa
-den Radius bei Verwendung einer Lochblende. Au"serdem kann man die Wellenlänge des verwendeten Lichts
-angeben (die zugehörige Farbe wird vom Paket dann automatisch zugeordnet).
-
-Es gibt drei Befehle, jeweils einen für rechteckige, kreisförmige und
-dreieckige Öffnungen:
-
-
-\begin{lstlisting}[style=syntax]
-\psdiffractionRectangle[<Optionen>]
-\psdiffractionCircular[<Optionen>]
-\psdiffractionTriangle[<Optionen>]
-\end{lstlisting}
-
-
-\section{Die Farbe}
-Die gewünschte Lichtfarbe wird über die Angabe der zugehörigen Wellenlänge
-$\lambda$ (in Nanometern) definiert. Für die Farbe rot beispielsweise gibt man als
-Option \texttt{[lambda=632]} an wegen $\lambda_{\textrm{rot}}=632\,\textrm{nm}$.
-
-Die Umrechnung der Wellenlänge in den entsprechenden Wert des
-\texttt{RGB}-Farbschemas wird von PostScript durchgeführt. Der zugrunde liegende
-Code lehnt sich an an ein Fortran-Programm, welches man auf folgender Seite
-findet:
-\url{http://www.midnightkite.com/color.html}.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-\section{Beugung an einer rechteckigen Blendenöffnung}
-
-\begin{center}
-\begin{pspicture}(-2,-1)(2,1.5)
-\psframe(-0.5,-1)(0.5,1)
-\pcline{<->}(-0.5,1.1)(0.5,1.1)
-\Aput{$a$}
-\pcline{<->}(0.6,1)(0.6,-1)
-\Aput{$h=k\times a$}
-\end{pspicture}
-\end{center}
-
-Die Breite des Rechtecks mit der Fläche $h=k\times a$ wird
-über den Buchstaben \texttt{[a]} definiert, die Höhe
-über den Buchstaben \texttt{[k]}.
-Die Brennweite der Linse gibt man durch \texttt{[f]} an, die Auflösung kann man mit der
-Option [pixel] verändern.
-Mit der Option \texttt{[contrast]} kann man erreichen, da"s die Nebenmaxima des
-Beugungsmusters deutlicher werden.\\
-Ein Schwarzweissbild erhält man, wenn man die Option \texttt{[colorMode=0]}
-verwendet, \texttt{[colorMode=1]} liefert das zugehörige Negativ. Die Optionen
-\texttt{[colorMode=2]} bzw. \texttt{[colorMode=3]} liefern Farbbilder im
-CMYK-Farbmodell bzw. RGB-Farbmodell.
-
-Defaultmä"sig sind folgende Werte voreingestellt:
-
-\begin{tabular}{@{}lll@{}}
-\texttt{[a=0.2e-3]} in m; & \texttt{[k=1]}; & \texttt{[f=5]} in m;\\
-\texttt{[lambda=650]} in nm; & \texttt{[pixel=0.5]}; & \texttt{[contrast=38]}, Maximalwert;\\
-\texttt{[colorMode=3]}; & \texttt{[IIID=false]}.
-\end{tabular}
-
-\bigskip
-\noindent
-\begin{pspicture}(-3.5,-3.5)(3.5,3.5)
-\psdiffractionRectangle[f=2.5]
-\end{pspicture}
-\hfill
-\begin{pspicture}(-1.5,-2.5)(3.5,3.5)
-\psdiffractionRectangle[IIID,Alpha=30,f=2.5]
-\end{pspicture}
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-3.5,-3.5)(3.5,3.5)
-\psdiffractionRectangle[f=2.5]
-\end{pspicture}
-\hfill
-\begin{pspicture}(-1.5,-2.5)(3.5,3.5)
-\psdiffractionRectangle[IIID,Alpha=30,f=2.5]
-\end{pspicture}
-\end{lstlisting}
-
-
-
-\noindent\begin{pspicture}(-2,-4)(2,4)
-\psdiffractionRectangle[a=0.5e-3,k=0.5,f=4,pixel=0.5,colorMode=0]
-\end{pspicture}
-\hfill
-\begin{pspicture}(0,-3)(4,4)
-\psdiffractionRectangle[IIID,a=0.5e-3,k=0.5,f=4,pixel=0.5,colorMode=0]
-\end{pspicture}
-
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-2,-4)(2,4)
-\psdiffractionRectangle[a=0.5e-3,k=0.5,f=4,pixel=0.5,colorMode=0]
-\end{pspicture}
-\hfill
-\begin{pspicture}(0,-3)(4,4)
-\psdiffractionRectangle[IIID,a=0.5e-3,k=0.5,f=4,pixel=0.5,colorMode=0]
-\end{pspicture}
-\end{lstlisting}
-
-
-
-\noindent
-\begin{pspicture}(-2.5,-2.5)(3.5,3)
-\psdiffractionRectangle[a=0.5e-3,k=2,f=10,lambda=515,colorMode=1]
-\end{pspicture}
-\hfill
-\begin{pspicture}(-1.5,-2)(3.5,3)
-\psdiffractionRectangle[IIID,Alpha=20,a=0.5e-3,k=2,f=10,lambda=515,colorMode=1]
-\end{pspicture}
-
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-2.5,-2.5)(3.5,3)
-\psdiffractionRectangle[a=0.5e-3,k=2,f=10,lambda=515,colorMode=1]
-\end{pspicture}
-\hfill
-\begin{pspicture}(-1.5,-2)(3.5,3)
-\psdiffractionRectangle[IIID,Alpha=20,a=0.5e-3,k=2,f=10,lambda=515,colorMode=1]
-\end{pspicture}
-\end{lstlisting}
-
-
-\noindent
-\begin{pspicture}(-3.5,-1)(3.5,1)
-\psdiffractionRectangle[a=0.5e-3,k=20,f=10,pixel=0.5,lambda=450]
-\end{pspicture}
-\hfill
-\begin{pspicture}(-3.5,-1)(3.5,4)
-\psdiffractionRectangle[IIID,Alpha=10,a=0.5e-3,k=20,f=10,pixel=0.5,lambda=450]
-\end{pspicture}
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-3.5,-1)(3.5,1)
-\psdiffractionRectangle[a=0.5e-3,k=20,f=10,pixel=0.5,lambda=450]
-\end{pspicture}
-\hfill
-\begin{pspicture}(-3.5,-1)(3.5,4)
-\psdiffractionRectangle[IIID,Alpha=10,a=0.5e-3,k=20,f=10,pixel=0.5,lambda=450]
-\end{pspicture}
-\end{lstlisting}
-
-\section{Beugung an zwei rechteckigen Blendenöffnungen}
-
-\begin{shaded}
-Der Code für diese Simulation wurde von Julien \textsc{Cubizolles} erstellt.
-\end{shaded}
-Man kann auch das Beugungsmuster zweier kongruenter Rechtecke (so nebeneinander
-angeordnet, da"s ihre Grundlinie auf der $x$-Achse liegt) erstellen,
-indem man zusätzlich
-zu den Angaben für den Fall nur eines Rechtecks die Option \texttt{[twoSlit]} angibt.
-Defaultmä"sig ist \texttt{[twoSlit]} deaktiviert. Den Abstand zwischen den beiden
-Rechtecken kann man über die Option $s$ einstellen. Sie wird, wenn nichts anderes angegeben
-wird, mit dem Wert $12e^{-3}\,\mathrm{m}$ belegt.
-
-\begin{center}
-\noindent
-\begin{pspicture}(-4,-1)(4,1)
-\psdiffractionRectangle[a=0.5e-3,k=10,f=10,pixel=0.5,lambda=650,twoSlit,s=2e-3]
-\end{pspicture}
-\end{center}
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-4,-1)(4,1)
-\psdiffractionRectangle[a=0.5e-3,k=10,f=10,pixel=0.5,lambda=650,twoSlit,s=2e-3]
-\end{pspicture}
-\end{lstlisting}
-
-\begin{center}
-\begin{pspicture}(-2,-1)(4,4)
-\psdiffractionRectangle[IIID,Alpha=20,a=0.5e-3,k=10,f=10,pixel=0.5,lambda=650,twoSlit,s=2e-3]
-\end{pspicture}
-\end{center}
-
-\begin{lstlisting}[pos=t,style=example,wide=false]
-\begin{pspicture}(-2,-1)(4,4)
-\psdiffractionRectangle[IIID,Alpha=20,a=0.5e-3,k=10,f=10,pixel=0.5,lambda=650,twoSlit,s=2e-3]
-\end{pspicture}
-\end{lstlisting}
-
-
-\section{Beugung an einer kreisförmigen Blendenöffnung}
-Der Lochradius wird über den Buchstaben \texttt{r} angesprochen, beispielsweise
-\texttt{[r=1e-3]}. Der Default ist $r=1$ mm. Im ersten Quadranten wird der Graph der
-Intensitätsverteilung abgebildet (das Maximum in der Mitte wird abgeschnitten,
-falls es über den oberen Rand der \psp-Umgebung hinausgeht).
-
-\begin{center}
-\begin{pspicture}(-3.5,-3.5)(3.5,3.5)
-\psdiffractionCircular[r=0.5e-3,f=10,pixel=0.5,lambda=520]
-\end{pspicture}
-%
-\begin{pspicture}(-3.5,-1.5)(3.5,3.5)
-\psdiffractionCircular[IIID,r=0.5e-3,f=10,pixel=0.5,lambda=520]
-\end{pspicture}
-\end{center}
-
-
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-3.5,-3.5)(3.5,3.5)
-\psdiffractionCircular[r=0.5e-3,f=10,pixel=0.5,lambda=520]
-\end{pspicture}
-%
-\begin{pspicture}(-3.5,-1.5)(3.5,3.5)
-\psdiffractionCircular[IIID,r=0.5e-3,f=10,pixel=0.5,lambda=520]
-\end{pspicture}
-\end{lstlisting}
-
-
-
-
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-\section{Beugung an zwei kreisförmigen Blendenöffnungen}
-Es ist nur der Fall gleich gro"ser Radien vorgesehen, diesen gemeinsamen Radius
-spezifiziert man wie vorher über \texttt{[r=\dots]}. Au"serdem muss man den
-halben Abstand der beiden Kreismitten festlegen vermöge \texttt{[d=\dots]},
-beispielsweise \texttt{[d=3e-3]}. Zusätzlich muss man die Option
-\texttt{[twoHole]} verwenden. Der Bildaufbau kann in diesem Fall etwas länger dauern\dots
-
-\begin{pspicture}(-3,-3.5)(3.5,3.5)
-\psdiffractionCircular[r=0.5e-3,f=10,d=3e-3,lambda=515,twoHole]
-\end{pspicture}
-%
-\begin{pspicture}(-3.5,-1.5)(3.5,3.5)
-\psdiffractionCircular[IIID,r=0.5e-3,f=10,d=3e-3,lambda=515,twoHole]
-\end{pspicture}
-
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-3,-3.5)(3.5,3.5)
-\psdiffractionCircular[r=0.5e-3,f=10,d=3e-3,lambda=515,twoHole]
-\end{pspicture}
-%
-\begin{pspicture}(-3.5,-1.5)(3.5,3.5)
-\psdiffractionCircular[IIID,r=0.5e-3,f=10,d=3e-3,lambda=515,twoHole]
-\end{pspicture}
-\end{lstlisting}
-
-
-\hspace*{-1cm}%
-\begin{pspicture}(-3,-3)(3.5,4)
-\psdiffractionCircular[r=0.5e-3,f=10,d=2e-3,lambda=700,twoHole,colorMode=0]
-\end{pspicture}
-%
-\begin{pspicture}(-3.5,-2)(3.5,3.5)
-\psdiffractionCircular[IIID,r=0.5e-3,f=10,d=2e-3,lambda=700,twoHole,colorMode=0]
-\end{pspicture}
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-3.5,-3)(3.5,4)
-\psdiffractionCircular[r=0.5e-3,f=10,d=2e-3,lambda=700,twoHole,colorMode=0]
-\end{pspicture}
-%
-\begin{pspicture}(-3.5,-2)(3.5,3.5)
-\psdiffractionCircular[IIID,r=0.5e-3,f=10,d=2e-3,lambda=700,twoHole,colorMode=0]
-\end{pspicture}
-\end{lstlisting}
-
-Nicht in jedem Fall ergibt sich im mittleren Kreis ein Streifenmuster. Die Anzahl $N$ der Streifen
-im Inneren ist gegeben durch $N=2,44\frac{d}{r}$. Man kann diesen Effekt also erst für
-$N\geq2$ bzw. ab $d=\frac{2r}{1,22}$ beobachten (siehe
-\url{http://www.unice.fr/DeptPhys/optique/diff/trouscirc/diffrac.html}).
-
-
-\hspace*{-1cm}%
-\begin{pspicture}(-3,-3.5)(3,3.5)
-\psdiffractionCircular[r=0.5e-3,f=10,d=4.1e-4,lambda=632,twoHole]
-\end{pspicture}
-%
-\begin{pspicture}(-3.5,-1.5)(3.5,3)
-\psdiffractionCircular[IIID,r=0.5e-3,f=10,d=4.1e-4,lambda=632,twoHole]
-\end{pspicture}
-
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-3,-3.5)(3,3.5)
-\psdiffractionCircular[r=0.5e-3,f=10,d=4.1e-4,lambda=632,twoHole]
-\end{pspicture}
-%
-\begin{pspicture}(-3.5,-1.5)(3.5,3)
-\psdiffractionCircular[IIID,r=0.5e-3,f=10,d=4.1e-4,lambda=632,twoHole]
-\end{pspicture}
-\end{lstlisting}
-
-
-
-\section{Brechung an einer dreieckigen Blendenöffnung}
-Es ist nur der Fall eines gleichseitigen Dreiecks vorgesehen. Als Option gibt man dessen Höhe
-\texttt{[h]} an, welche sich bekanntlich über $h=\frac{\sqrt{3}}{2}s$ aus der Seitenlänge $s$
-des Dreiecks berechnet. Ein Schwarzweissbild erhält man mit \texttt{[colorMode=0]}.
-
-\begin{center}
-\begin{pspicture}(-1,-1)(1,1)
-\pspolygon*(0,0)(1;150)(1;210)
-\pcline{|-|}(-0.732,-1)(0,-1)
-\Aput{$h$}
-\end{pspicture}
-\end{center}
-
-\makebox[\linewidth]{%
-\begin{pspicture}(-3,-3)(3,2.5)
-\psdiffractionTriangle[f=10,h=1e-3,lambda=515,contrast=38]
-\end{pspicture}
-\quad
-\begin{pspicture}(-3,-3)(3,2.5)
-\psdiffractionTriangle[f=10,h=1e-3,colorMode=1,contrast=38,lambda=515]
-\end{pspicture}
-\quad
-\begin{pspicture}(-3,-3)(3,2.5)
-\psdiffractionTriangle[f=10,h=1e-3,colorMode=0,contrast=38,lambda=515]
-\end{pspicture}}
-
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-3,-3)(3,2.5)
-\psdiffractionTriangle[f=10,h=1e-3,lambda=515,contrast=38]
-\end{pspicture}
-\quad
-\begin{pspicture}(-3,-3)(3,2.5)
-\psdiffractionTriangle[f=10,h=1e-3,colorMode=1,contrast=38,lambda=515]
-\end{pspicture}
-\quad
-\begin{pspicture}(-3,-3)(3,2.5)
-\psdiffractionTriangle[f=10,h=1e-3,colorMode=0,contrast=38,lambda=515]
-\end{pspicture}
-\end{lstlisting}
-
-
-\makebox[\linewidth]{%
-\begin{pspicture}(-3,-2)(3,3.5)
-\psdiffractionTriangle[IIID,f=10,h=1e-3,lambda=515,contrast=38]
-\end{pspicture}
-\quad
-\begin{pspicture}(-3,-2)(3,3.5)
-\psdiffractionTriangle[IIID,f=10,h=1e-3,colorMode=1,contrast=38,lambda=515]
-\end{pspicture}
-\quad
-\begin{pspicture}(-3,-2)(3,3.5)
-\psdiffractionTriangle[IIID,f=10,h=1e-3,colorMode=0,contrast=38,lambda=515]
-\end{pspicture}}
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-3,-2)(3,3.5)
-\psdiffractionTriangle[IIID,f=10,h=1e-3,lambda=515,contrast=38]
-\end{pspicture}
-\quad
-\begin{pspicture}(-3,-2)(3,3.5)
-\psdiffractionTriangle[IIID,f=10,h=1e-3,colorMode=1,contrast=38,lambda=515]
-\end{pspicture}
-\quad
-\begin{pspicture}(-3,-2)(3,3.5)
-\psdiffractionTriangle[IIID,f=10,h=1e-3,colorMode=0,contrast=38,lambda=515]
-\end{pspicture}
-\end{lstlisting}
-
-
-%\section{Credits}
-
-
-\bgroup
-\nocite{*}
-\raggedright
-\bibliographystyle{plain}
-\bibliography{pst-diffraction-doc}
-\egroup
-
-
-
-\end{document}
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+++ /dev/null
@@ -1,483 +0,0 @@
-\documentclass[frenchb,dvips,a4paper]{article}
-\usepackage[latin9]{inputenc}%
-\usepackage[T1]{fontenc}
-\usepackage[bmargin=2cm,tmargin=2cm]{geometry}
-%
-\usepackage{pstricks,pst-node,pst-grad,url}
-\usepackage{pst-diffraction}
-\let\PSTfileversion\fileversion
-\let\PSTfiledate\filedate
-%
-\usepackage{ccfonts}
-\usepackage[euler-digits]{eulervm}
-\usepackage[scaled=0.85]{luximono}
-\usepackage{xspace}
-\newcommand*\psp{\texttt{pspicture}\xspace}
-\def\UrlFont{\small\ttfamily}
-\makeatletter
-\def\verbatim@font{\small\normalfont\ttfamily}
-\makeatother
-\usepackage{prettyref,multicol}
-\usepackage{fancyhdr}
-
-\usepackage{showexpl}
-\lstdefinestyle{syntax}{backgroundcolor=\color{blue!20},numbers=none,xleftmargin=0pt,xrightmargin=0pt,
- frame=single}
-\lstdefinestyle{example}{backgroundcolor=\color{red!20},numbers=none,xleftmargin=0pt,xrightmargin=0pt,
- frame=single}
-\lstset{wide=true,language=PSTricks,
- morekeywords={psdiffractionCircular,psdiffractionRectangle,psdiffractionTriangle}}
-
-\usepackage{babel}
-\usepackage[colorlinks,linktocpage]{hyperref}
-
-\pagestyle{fancy}
-\def\Lcs#1{{\ttfamily\textbackslash #1}}
-\lfoot{\small\ttfamily\jobname.tex}
-\cfoot{Documentation}
-\rfoot{\thepage}
-\lhead{PSTricks}
-\renewcommand{\headrulewidth}{0pt}
-\renewcommand{\footrulewidth}{0pt}
-\newcommand{\PS}{PostScript}
-\newcommand\CMD[1]{\texttt{\textbackslash#1}}
-\makeatother
-\usepackage{framed}
-\definecolor{shadecolor}{cmyk}{0.2,0,0,0}
-\SpecialCoor
-
-\title{\texttt{pst-diffraction}\\[6pt]
-Diffraction \`a l'infini
-par un trou rectangulaire,
-un trou circulaire, deux trous circulaires,
-un trou triangulaire.\\[1cm]
----\\[10pt]
-{\normalsize v. \PSTfileversion (\PSTfiledate)}}
-\author{%
- \tabular[t]{c}Manuel Luque\\[3pt]
- \url{ml@PSTricks.de}
- \endtabular \and
- \tabular[t]{c}Herbert Vo\ss\thanks{%
- Thanks to Julien Cubizolles}%
- \\[3pt]
- \url{hv@PSTricks.de}\endtabular%
-}
-\date{\today}
-\begin{document}
-\maketitle
-
-\tableofcontents
-
-\clearpage
-\section{Présentation et Montage}
-\begin{center}
-\begin{pspicture}(0,-3)(12,3)
-\pnode(0,0){S} \pnode(4,1){L'1} \pnode(4,-1){L'2} \pnode(6,1){E'1} \pnode(6,-1){E'2}
-\pnode(6,0.5){E1}\pnode(6,-0.5){E2}\pnode(8.5,1.5){L1}\pnode(8.5,0.5){L2}\pnode(11.5,1.25){P}
-% lentille L'
-\pscustom[fillstyle=gradient,linecolor=blue,gradend=white]{%
- \code{0.5 0.83333 scale}
- \psarc(4,0){4.176}{-16.699}{16.699}
- \psarc(12,0){4.176}{163.30}{196.699}}
-% lentille L
-\pscustom[fillstyle=gradient,linecolor=blue,gradend=white]{%
- \code{1 1.5 scale}
- \psarc(4.5,0){4.176}{-16.699}{16.699}
- \psarc(12.5,0){4.176}{163.30}{196.699}}
-\pspolygon[linestyle=none,fillstyle=vlines,
- hatchcolor=yellow](S)(L'1)(E'1)(E1)(L1)(P)(L2)(E2)(E'2)(L'2)
-\uput[90](4,1){$L'$}\uput[90](8.5,2){$L$}
-\psdot(S)\uput[180](S){S}
-\psline(S)(12,0)\psline[linewidth=2\pslinewidth](6,2)(6,0.5)\psline[linewidth=2\pslinewidth](6,-2)(6,-0.5)
-\psline[linestyle=dashed](6,0.5)(6,-0.5)\psline(11.5,-3)(11.5,3)\psline(S)(L'1)(E'1)\psline(S)(L'2)(E'2)
-\uput[0](P){P}
-\psline(E1)(L1)(P)\psline(E2)(L2)(P)\psline[linestyle=dashed](8.5,0)(P)
-\rput(8.5,0){\psarc{->}(0,0){1.5}{0}{!1.25 3 atan}\uput[0](1.5;15){$\theta$}}
-\uput[-90](10,0){$f$}\uput[0](6,2){E}\uput[135](6,0){T}\uput[45](11.5,0){O}
-\end{pspicture}
-\end{center}
-Ceci est la reproduction de montage
-proposé par Henri \textsc{Bouasse} dans son livre sur la
-diffraction, page 25, publié aux éditions Delagrave en 1\,925. Les commentaires dont il accompagne ce
-schéma sont les suivants :\newline
-\begin{shaded}
-« Une source ponctuelle unique S, très éloignée ou placée dans le plan focal
-principal de la lentille collimatrice $L'$, fournit un faisceau cylindrique
-unique de rayons. On le reçoit sur le plan~E, percé d'un trou~T dont la
-forme caractérise le phénomène étudié.
-Au-delà de l'écran~E la lumière est diffractée \textit{une infinité de
-directions}, ou si l'on veut suivant une infinité de faisceaux
-cylindriques.
-Les rayons diffractés dans chaque direction sont concentrés aux divers points
-du plan focal image d'une lunette accommodée sur l'infini, où ils forment la
-\textit{figure de diffraction} : d'où le nom de \textit{phénomène à
-l'infini}. De chaque faisceau cylindrique diffracté, l'objectif~L de la
-lunette donne une image au point~P de son plan focal principal.
-[\ldots]Au point P correspond un faisceau cylindrique antérieur à l'objectif
-qui fait avec l'axe optique l'angle $\theta$ tel que :
-$\overline{OP}=f\tan\theta\approx\theta$
-\end{shaded}
-
-Ces quelques commandes réalisées avec \texttt{PSTricks} permettent d'obtenir
-les figures de diffraction \textit{à l'infini}, en lumière monochromatique,
-d'un trou rectangulaire, d'un trou circulaire, de deux trous circulaires et
-d'un trou triangulaire.
-
-Les dimensions des ouvertures sont bien sûr paramétrables, ainsi que le
-choix de la longueur d'onde : la couleur s'adapte automatiquement, et des
-divers paramètres du montage.
-
-Il y a trois commandes, l'une pour les ouvertures rectangulaires, l'autre
-pour les ouvertures circulaires et la dernière pour une ouverture
-triangulaire.
-\begin{lstlisting}[style=syntax]
-\psdiffractionRectangle[<liste de paramètres>]
-\psdiffractionCircular[<liste de paramètres>]
-\psdiffractionTriangle[<liste de paramètres>]
-\end{lstlisting}
-
-Nous allons passer en revue ces différentes commandes et leurs paramètres.
-\section{La couleur de la radiation}
-La longueur d'onde est définie par le paramètres \texttt{[lambda=632]} (si
-l'on veut du rouge de longueur d'onde~:~ $\lambda=632$~nm), cette valeur est donc en~nm. La
-conversion de la longueur d'onde dans le système \texttt{rgb} est une adaptation en
-postscript de celle qu'on trouve sur~:\\
-\url{http://www.physics.sfasu.edu/astro/color.html}.
-
-
-
-\section{Diffraction par une ouverture rectangulaire}
-
-\begin{center}
-\begin{pspicture}(-2,-1)(2,1.5)
-\psframe(-0.5,-1)(0.5,1)
-\pcline{<->}(-0.5,1.1)(0.5,1.1)
-\Aput{$a$}
-\pcline{<->}(0.6,1)(0.6,-1)
-\Aput{$h=k\times a$}
-\end{pspicture}
-\end{center}
-On donnera la largeur de la fente \texttt{[a]} et le paramètre \texttt{[k]}
-qui déterminera la hauteur de la fente $h=k\times a$. On choisira aussi la
-distance focale de la lentille \texttt{[a]}, la résolution du tracé par la dimension du
-\texttt{[pixel]}. On pourra jouer sur le contraste pour rendre les franges
-éloignées un peu plus visibles avec \texttt{[contrast]}et éventuellement, obtenir un tracé en niveaux de
-gris en négatif inverse avec \texttt{[colorMode=0]} ou
-negativ avec \texttt{[colorMode=1]} ou cmyk couleur avec \texttt{[colorMode=2]} ou
-rgb avec \texttt{[colorMode=3]}.
-
-Par défaut les paramètres ont les valeurs suivantes :
-
-\begin{tabular}{@{}lll@{}}
-\texttt{[a=0.2e-3]} en m; & \texttt{[k=1]}; & \texttt{[f=5]} en m;\\
-\texttt{[lambda=650]} en nm; & \texttt{[pixel=0.5]}; & \texttt{[contrast=38]}, valeur maximale;\\
-\texttt{[colorMode=3]}; & \texttt{[IIID=false]}.
-\end{tabular}
-
-\bigskip
-\noindent
-\begin{pspicture}(-3.5,-3.5)(3.5,3.5)
-\psdiffractionRectangle[f=2.5]
-\end{pspicture}
-\hfill
-\begin{pspicture}(-1.5,-2.5)(3.5,3.5)
-\psdiffractionRectangle[IIID,Alpha=30,f=2.5]
-\end{pspicture}
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-3.5,-3.5)(3.5,3.5)
-\psdiffractionRectangle[f=2.5]
-\end{pspicture}
-\hfill
-\begin{pspicture}(-1.5,-2.5)(3.5,3.5)
-\psdiffractionRectangle[IIID,Alpha=30,f=2.5]
-\end{pspicture}
-\end{lstlisting}
-
-
-
-\noindent\begin{pspicture}(-2,-4)(2,4)
-\psdiffractionRectangle[a=0.5e-3,k=0.5,f=4,pixel=0.5,colorMode=0]
-\end{pspicture}
-\hfill
-\begin{pspicture}(0,-3)(4,4)
-\psdiffractionRectangle[IIID,a=0.5e-3,k=0.5,f=4,pixel=0.5,colorMode=0]
-\end{pspicture}
-
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-2,-4)(2,4)
-\psdiffractionRectangle[a=0.5e-3,k=0.5,f=4,pixel=0.5,colorMode=0]
-\end{pspicture}
-\hfill
-\begin{pspicture}(0,-3)(4,4)
-\psdiffractionRectangle[IIID,a=0.5e-3,k=0.5,f=4,pixel=0.5,colorMode=0]
-\end{pspicture}
-\end{lstlisting}
-
-
-
-\noindent
-\begin{pspicture}(-2.5,-2.5)(3.5,3)
-\psdiffractionRectangle[a=0.5e-3,k=2,f=10,lambda=515,colorMode=1]
-\end{pspicture}
-\hfill
-\begin{pspicture}(-1.5,-2)(3.5,3)
-\psdiffractionRectangle[IIID,Alpha=20,a=0.5e-3,k=2,f=10,lambda=515,colorMode=1]
-\end{pspicture}
-
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-2.5,-2.5)(3.5,3)
-\psdiffractionRectangle[a=0.5e-3,k=2,f=10,lambda=515,colorMode=1]
-\end{pspicture}
-\hfill
-\begin{pspicture}(-1.5,-2)(3.5,3)
-\psdiffractionRectangle[IIID,Alpha=20,a=0.5e-3,k=2,f=10,lambda=515,colorMode=1]
-\end{pspicture}
-\end{lstlisting}
-
-
-\noindent
-\begin{pspicture}(-3.5,-1)(3.5,1)
-\psdiffractionRectangle[a=0.5e-3,k=20,f=10,pixel=0.5,lambda=450]
-\end{pspicture}
-\hfill
-\begin{pspicture}(-3.5,-1)(3.5,4)
-\psdiffractionRectangle[IIID,Alpha=10,a=0.5e-3,k=20,f=10,pixel=0.5,lambda=450]
-\end{pspicture}
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-3.5,-1)(3.5,1)
-\psdiffractionRectangle[a=0.5e-3,k=20,f=10,pixel=0.5,lambda=450]
-\end{pspicture}
-\hfill
-\begin{pspicture}(-3.5,-1)(3.5,4)
-\psdiffractionRectangle[IIID,Alpha=10,a=0.5e-3,k=20,f=10,pixel=0.5,lambda=450]
-\end{pspicture}
-\end{lstlisting}
-
-\section{Diffraction par deux ouverture rectangulaire}
-
-\begin{shaded}
-This simulation was provided by Julien \textsc{Cubizolles}.
-\end{shaded}
-
-\begin{center}
-\noindent
-\begin{pspicture}(-4,-1)(4,1)
-\psdiffractionRectangle[a=0.5e-3,k=10,f=10,pixel=0.5,lambda=650,twoSlit,s=2e-3]
-\end{pspicture}
-\end{center}
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-4,-1)(4,1)
-\psdiffractionRectangle[a=0.5e-3,k=10,f=10,pixel=0.5,lambda=650,twoSlit,s=2e-3]
-\end{pspicture}
-\end{lstlisting}
-
-\begin{center}
-\begin{pspicture}(-2,-1)(4,4)
-\psdiffractionRectangle[IIID,Alpha=20,a=0.5e-3,k=10,f=10,pixel=0.5,lambda=650,twoSlit,s=2e-3]
-\end{pspicture}
-\end{center}
-
-\begin{lstlisting}[pos=t,style=example,wide=false]
-\begin{pspicture}(-2,-1)(4,4)
-\psdiffractionRectangle[IIID,Alpha=20,a=0.5e-3,k=10,f=10,pixel=0.5,lambda=650,twoSlit,s=2e-3]
-\end{pspicture}
-\end{lstlisting}
-
-
-
-\section{Diffraction par une ouverture circulaire}
-On donnera le rayon du trou : \texttt{[r=1e-3]}, $r=1$ mm par défaut. Les
-variations de l'intensité sont superposées à la figure de diffraction dans
-le premier quadrant (le maximum au centre a été écrêté).
-
-
-\begin{center}
-\begin{pspicture}(-3.5,-3.5)(3.5,3.5)
-\psdiffractionCircular[r=0.5e-3,f=10,pixel=0.5,lambda=520]
-\end{pspicture}
-%
-\begin{pspicture}(-3.5,-1.5)(3.5,3.5)
-\psdiffractionCircular[IIID,r=0.5e-3,f=10,pixel=0.5,lambda=520]
-\end{pspicture}
-\end{center}
-
-
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-3.5,-3.5)(3.5,3.5)
-\psdiffractionCircular[r=0.5e-3,f=10,pixel=0.5,lambda=520]
-\end{pspicture}
-%
-\begin{pspicture}(-3.5,-1.5)(3.5,3.5)
-\psdiffractionCircular[IIID,r=0.5e-3,f=10,pixel=0.5,lambda=520]
-\end{pspicture}
-\end{lstlisting}
-
-
-
-\section{Diffraction par deux trous circulaires}
-Les deux trous sont identiques, outre le rayon commun des trous on fixera la
-demi-distance entre les centres des deux trous avec : \texttt{[d]} et pour
-ce cas de figure on activera l'option \texttt{[twoHole]}. On notera que
-les temps de calculs d'allongent\ldots
-
-
-\begin{pspicture}(-3,-3.5)(3.5,3.5)
-\psdiffractionCircular[r=0.5e-3,f=10,d=3e-3,lambda=515,twoHole]
-\end{pspicture}
-%
-\begin{pspicture}(-3.5,-1.5)(3.5,3.5)
-\psdiffractionCircular[IIID,r=0.5e-3,f=10,d=3e-3,lambda=515,twoHole]
-\end{pspicture}
-
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-3,-3.5)(3.5,3.5)
-\psdiffractionCircular[r=0.5e-3,f=10,d=3e-3,lambda=515,twoHole]
-\end{pspicture}
-%
-\begin{pspicture}(-3.5,-1.5)(3.5,3.5)
-\psdiffractionCircular[IIID,r=0.5e-3,f=10,d=3e-3,lambda=515,twoHole]
-\end{pspicture}
-\end{lstlisting}
-
-
-\hspace*{-1cm}%
-\begin{pspicture}(-3,-3)(3.5,4)
-\psdiffractionCircular[r=0.5e-3,f=10,d=2e-3,lambda=700,twoHole,colorMode=0]
-\end{pspicture}
-%
-\begin{pspicture}(-3.5,-2)(3.5,3.5)
-\psdiffractionCircular[IIID,r=0.5e-3,f=10,d=2e-3,lambda=700,twoHole,colorMode=0]
-\end{pspicture}
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-3.5,-3)(3.5,4)
-\psdiffractionCircular[r=0.5e-3,f=10,d=2e-3,lambda=700,twoHole,colorMode=0]
-\end{pspicture}
-%
-\begin{pspicture}(-3.5,-2)(3.5,3.5)
-\psdiffractionCircular[IIID,r=0.5e-3,f=10,d=2e-3,lambda=700,twoHole,colorMode=0]
-\end{pspicture}
-\end{lstlisting}
-
-Le cas limite d'obtention de franges se vérifie avec $\displaystyle d
-=\frac{a}{1.22}$. Voir~:\\
-\url{http://www.unice.fr/DeptPhys/optique/diff/trouscirc/diffrac.html}).
-
-\hspace*{-1cm}%
-\begin{pspicture}(-3,-3.5)(3,3.5)
-\psdiffractionCircular[r=0.5e-3,f=10,d=4.1e-4,lambda=632,twoHole]
-\end{pspicture}
-%
-\begin{pspicture}(-3.5,-1.5)(3.5,3)
-\psdiffractionCircular[IIID,r=0.5e-3,f=10,d=4.1e-4,lambda=632,twoHole]
-\end{pspicture}
-
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-3,-3.5)(3,3.5)
-\psdiffractionCircular[r=0.5e-3,f=10,d=4.1e-4,lambda=632,twoHole]
-\end{pspicture}
-%
-\begin{pspicture}(-3.5,-1.5)(3.5,3)
-\psdiffractionCircular[IIID,r=0.5e-3,f=10,d=4.1e-4,lambda=632,twoHole]
-\end{pspicture}
-\end{lstlisting}
-
-
-
-\section{Diffraction par un trou triangulaire équilatéral}
-Le triangle équilatéral est défini par sa hauteur \texttt{[h]} en m. Pour le
-triangle, on peut obtenir la figure en niveaux de gris avec l'option
-\texttt{[colorMode=0]}. L'étude théorique de cette diffraction a été faite par
-\textsc{Airy}, on la trouve dans le livre d'Henri \textsc{Bouasse} sur la
-diffraction, pages 114 et 115.
-
-
-\begin{center}
-\begin{pspicture}(-1,-1)(1,1)
-\pspolygon*(0,0)(1;150)(1;210)
-\pcline{|-|}(-0.732,-1)(0,-1)
-\Aput{$h$}
-\end{pspicture}
-\end{center}
-
-\makebox[\linewidth]{%
-\begin{pspicture}(-3,-3)(3,2.5)
-\psdiffractionTriangle[f=10,h=1e-3,lambda=515,contrast=38]
-\end{pspicture}
-\quad
-\begin{pspicture}(-3,-3)(3,2.5)
-\psdiffractionTriangle[f=10,h=1e-3,colorMode=1,contrast=38,lambda=515]
-\end{pspicture}
-\quad
-\begin{pspicture}(-3,-3)(3,2.5)
-\psdiffractionTriangle[f=10,h=1e-3,colorMode=0,contrast=38,lambda=515]
-\end{pspicture}}
-
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-3,-3)(3,2.5)
-\psdiffractionTriangle[f=10,h=1e-3,lambda=515,contrast=38]
-\end{pspicture}
-\quad
-\begin{pspicture}(-3,-3)(3,2.5)
-\psdiffractionTriangle[f=10,h=1e-3,colorMode=1,contrast=38,lambda=515]
-\end{pspicture}
-\quad
-\begin{pspicture}(-3,-3)(3,2.5)
-\psdiffractionTriangle[f=10,h=1e-3,colorMode=0,contrast=38,lambda=515]
-\end{pspicture}
-\end{lstlisting}
-
-
-\makebox[\linewidth]{%
-\begin{pspicture}(-3,-2)(3,3.5)
-\psdiffractionTriangle[IIID,f=10,h=1e-3,lambda=515,contrast=38]
-\end{pspicture}
-\quad
-\begin{pspicture}(-3,-2)(3,3.5)
-\psdiffractionTriangle[IIID,f=10,h=1e-3,colorMode=1,contrast=38,lambda=515]
-\end{pspicture}
-\quad
-\begin{pspicture}(-3,-2)(3,3.5)
-\psdiffractionTriangle[IIID,f=10,h=1e-3,colorMode=0,contrast=38,lambda=515]
-\end{pspicture}}
-
-\begin{lstlisting}[style=example]
-\begin{pspicture}(-3,-2)(3,3.5)
-\psdiffractionTriangle[IIID,f=10,h=1e-3,lambda=515,contrast=38]
-\end{pspicture}
-\quad
-\begin{pspicture}(-3,-2)(3,3.5)
-\psdiffractionTriangle[IIID,f=10,h=1e-3,colorMode=1,contrast=38,lambda=515]
-\end{pspicture}
-\quad
-\begin{pspicture}(-3,-2)(3,3.5)
-\psdiffractionTriangle[IIID,f=10,h=1e-3,colorMode=0,contrast=38,lambda=515]
-\end{pspicture}
-\end{lstlisting}
-
-
-
-
-
-%\section{Credits}
-
-
-\bgroup
-\nocite{*}
-\raggedright
-\bibliographystyle{plain}
-\bibliography{pst-diffraction-doc}
-\egroup
-
-
-\end{document}
diff --git a/Master/texmf-dist/source/generic/pst-diffraction/Makefile b/Master/texmf-dist/source/generic/pst-diffraction/Makefile
deleted file mode 100644
index 1d4650b7c1b..00000000000
--- a/Master/texmf-dist/source/generic/pst-diffraction/Makefile
+++ /dev/null
@@ -1,55 +0,0 @@
-# `Makefile' for `pst-diffraction.pdf', hv, 2007/03/17
-
-.SUFFIXES : .tex .ltx .dvi .ps .pdf .eps
-
-PACKAGE = pst-diffraction
-
-LATEX = latex
-
-ARCHNAME = $(PACKAGE)-$(shell date +%y%m%d)
-ARCHFILES = $(PACKAGE).sty *.tex $(PACKAGE).pro *.tex README Changes Makefile
-
-all : DE E FR clean
-
-DE : $(PACKAGE)-docDE.pdf
-E : $(PACKAGE)-docE.pdf
-FR : $(PACKAGE)-docFR.pdf
-
-doc : $(MAIN).pdf
-
-%.pdf : %.ps
- GS_OPTIONS=-dAutoRotatePages=/None ps2pdf $<
-
-%.ps : %.dvi
- dvips $<
-
-%.dvi : %.tex
- $(LATEX) $<
- $(LATEX) $<
- if ! test -f $(basename $<).glo ; then touch $(basename $<).glo; fi
- if ! test -f $(basename $<).idx ; then touch $(basename $<).idx; fi
- makeindex -s gglo.ist -t $(basename $<).glg -o $(basename $<).gls \
- $(basename $<).glo
- makeindex -t $(basename $<).ilg -o $(basename $<).ind \
- $(basename $<).idx
- bibtex $(basename $<)
- $(LATEX) $<
- $(LATEX) $<
-
-clean :
- $(RM) $(addprefix $(PACKAGE)-docDE, .log .aux .glg .glo .gls .ilg .idx .ind .tmp .toc .out .blg .Roessler .bbl )
- $(RM) $(addprefix $(PACKAGE)-docDE, .dvi .ps)
- $(RM) $(addprefix $(PACKAGE)-docE, .log .aux .glg .glo .gls .ilg .idx .ind .tmp .toc .out .blg .Roessler .bbl )
- $(RM) $(addprefix $(PACKAGE)-docE, .dvi .ps)
- $(RM) $(addprefix $(PACKAGE)-docFR, .log .aux .glg .glo .gls .ilg .idx .ind .tmp .toc .out .blg .Roessler .bbl )
- $(RM) $(addprefix $(PACKAGE)-docFR, .dvi .ps)
-
-veryclean : clean
- $(RM) $(addprefix $(PACKAGE)-docDE, .pdf .bbl .blg)
- $(RM) $(addprefix $(PACKAGE)-docE, .pdf .bbl .blg)
- $(RM) $(addprefix $(PACKAGE)-docFR, .pdf .bbl .blg)
-
-arch :
- zip $(ARCHNAME).zip $(ARCHFILES)
-
-# EOF
diff --git a/Master/texmf-dist/tex/generic/pst-diffraction/pst-diffraction.tex b/Master/texmf-dist/tex/generic/pst-diffraction/pst-diffraction.tex
index 1c653b37709..345fba99c4f 100644
--- a/Master/texmf-dist/tex/generic/pst-diffraction/pst-diffraction.tex
+++ b/Master/texmf-dist/tex/generic/pst-diffraction/pst-diffraction.tex
@@ -5,8 +5,8 @@
%%
%% Package `pst-diffraction.tex'
%%
-%% Manuel Luque <ml@pstricks.de>
-%% Herbert Voss <hv@pstricks.de>
+%% Manuel Luque <ml@texnik.de>
+%% Herbert Voss <hvoss@tug.org>
%%
%% with contributions of Julien Cubizolles
%%
@@ -21,12 +21,12 @@
\csname PSTDiffractionLoaded\endcsname
\let\PSTDiffractionLoaded\endinput
% Require PSTricks
-\ifx\PSTricksLoaded\endinput\else\input pstricks.tex\fi
+\ifx\PSTricksLoaded\endinput\else \input pstricks.tex\fi
\ifx\PSTThreeDplotLoaded\endinput\else\input pst-3dplot.tex\fi
-\ifx\PSTXKeyLoaded\endinput\else \input pst-xkey \fi
+\ifx\PSTXKeyLoaded\endinput\else \input pst-xkey.tex \fi
%
-\def\fileversion{2.03}%
-\def\filedate{2008/09/03}%
+\def\fileversion{2.04a}
+\def\filedate{2024/06/29}
\message{`PST-diffraction v\fileversion, \filedate\space (ML,hv)}%
\edef\PstAtCode{\the\catcode`\@} \catcode`\@=11\relax
\pst@addfams{pst-diff}
@@ -94,7 +94,7 @@
/bornexpt 1 widthSlit div focus mul ondeLongueur mul 2845 mul def
/borneypt 1 heightSlit div focus mul ondeLongueur mul 2845 mul def
\ifPst@Diffraction@IIID
- \psk@ThreeDplot@zMax dup \tx@ScreenCoor pop /zScale ED
+ \psk@ThreeDplot@zMax\space dup \tx@ScreenCoor pop /zScale ED
tx@3DPlotDict begin \IIIDplot@variables end
\fi
% Les calculs commencent...
@@ -170,7 +170,7 @@
\psk@Diffraction@Slit@Lambda tx@addDict begin wavelengthToRGB Red Green Blue end
/Blue ED /Green ED /Red ED
\ifPst@Diffraction@IIID
- \psk@ThreeDplot@zMax dup \tx@ScreenCoor pop /zScale ED
+ \psk@ThreeDplot@zMax\space dup \tx@ScreenCoor pop /zScale ED
tx@3DPlotDict begin \IIIDplot@variables end
\fi
% 0 0 translate
@@ -408,7 +408,7 @@
/bornexpt 1 h div f mul L mul 2845 mul def
/borneypt 1 h div f mul L mul 2845 mul def
\ifPst@Diffraction@IIID
- \psk@ThreeDplot@zMax dup \tx@ScreenCoor pop /zScale ED
+ \psk@ThreeDplot@zMax\space dup \tx@ScreenCoor pop /zScale ED
tx@3DPlotDict begin \IIIDplot@variables end
\fi
/P {
diff --git a/Master/texmf-dist/tex/latex/pst-diffraction/pst-diffraction.sty b/Master/texmf-dist/tex/latex/pst-diffraction/pst-diffraction.sty
index ab4962f6bce..35e81216447 100644
--- a/Master/texmf-dist/tex/latex/pst-diffraction/pst-diffraction.sty
+++ b/Master/texmf-dist/tex/latex/pst-diffraction/pst-diffraction.sty
@@ -1,7 +1,7 @@
\RequirePackage{pstricks}
\RequirePackage{pst-3dplot}
\RequirePackage{pst-xkey}
-\ProvidesPackage{pst-diffraction}[2009/09/04 package wrapper for
+\ProvidesPackage{pst-diffraction}[2024/06/29 package wrapper for
pst-diffraction.tex (hv)]
\input{pst-diffraction.tex}
\ProvidesFile{pst-diffraction.tex}