Changeset 3552


Ignore:
Timestamp:
Aug 2, 2018 10:03:06 PM (3 years ago)
Author:
toby
Message:

start adding video tutorials

Files:
1 deleted
12 edited

Legend:

Unmodified
Added
Removed
  • Tutorials/BkgFit/FitBkgTut.htm

    r2381 r3552  
    876876Starting Background using Fixed Points<o:p></o:p></span></h1>
    877877
     878<P><B>A video version of this tutorial is available at
     879<A href="https://anl.box.com/v/FitBkgTut" target="_blank">
     880https://anl.box.com/v/FitBkgTut</A></B></P>
     881
    878882<h2><span style='mso-fareast-font-family:"Times New Roman"'>Introduction:<o:p></o:p></span></h2>
    879883
  • Tutorials/CWCombined/Combined refinement.htm

    r3050 r3552  
    15571557<h1>Combined X-ray/neutron refinement – PbSO<sub>4</sub></h1>
    15581558
     1559<P><B>A video version of this tutorial is available at
     1560<A href="https://anl.box.com/v/Combinedrefinement" target="_blank">
     1561https://anl.box.com/v/Combinedrefinement</A></B></P>
     1562
    15591563<p class=MsoNormal>In this training exercise you will refine the structure of
    15601564lead <span class=SpellE>sulphate</span> using both constant wavelength X-ray
  • Tutorials/CWNeutron/Neutron CW Powder Data.htm

    r2969 r3552  
    12691269style='mso-bookmark:_Toc504374004'> Garnet</span></h1>
    12701270
     1271  <P><B>A video version of this tutorial is available at
     1272<A href="https://anl.box.com/v/NeutronCWPowderData" target="_blank">
     1273https://anl.box.com/v/NeutronCWPowderData</A></B></P>
     1274
    12711275<p class=MsoNormal>In this tutorial you will refine the structure of yttrium
    12721276iron/aluminum garnet using constant wavelength neutron data. The structure is
  • Tutorials/LabData/Laboratory X.htm

    r2993 r3552  
    13111311Data - <span class=SpellE>Fluroapatite</span></span><o:p></o:p></strong></h1>
    13121312
     1313<P><B>A video version of this tutorial is available at
     1314<A href="https://anl.box.com/v/LaboratoryX" target="_blank">
     1315https://anl.box.com/v/LaboratoryX</A></B></P>
     1316
    13131317<p class=MsoNormal>In this tutorial you will refine the structure of <span
    13141318class=SpellE>fluoroapatite</span>, <span class=GramE>Ca<sub>5</sub>F(</span>PO<sub>4</sub>)<sub>3</sub>,
  • Tutorials/SAseqref/Sequential Refinement of Small Angle Scattering Data.htm

    r3036 r3552  
    13211321under <b style='mso-bidi-font-weight:normal'><span style='font-family:"Calibri",sans-serif;
    13221322mso-ascii-theme-font:minor-latin;mso-hansi-theme-font:minor-latin'>SASD
    1323 S35_Ludox_40pct.dat</span></b> from the GSAS-II tree. Set the lower limit using
     1323S35_Ludox1_40pct.dat</span></b> from the GSAS-II tree. Set the lower limit using
    13241324the cursor on the plot by picking a point somewhere in the flat region at
    13251325Q~3x10<sup>-3</sup> with the left mouse button. The limits window should look
     
    14641464minor-latin;mso-hansi-theme-font:minor-latin'>2.0</span></b> and the density to
    14651465<b style='mso-bidi-font-weight:normal'><span style='font-family:"Calibri",sans-serif;
    1466 mso-ascii-theme-font:minor-latin;mso-hansi-theme-font:minor-latin'>2.65</span></b>;
     1466mso-ascii-theme-font:minor-latin;mso-hansi-theme-font:minor-latin'>2.65</span></b>,
     1467on the section of data for silica;
    14671468the window will change each time giving new values and should finally show</p>
    14681469
     
    15571558style='mso-no-proof:yes'> page for </span><b style='mso-bidi-font-weight:normal'><span
    15581559style='font-family:"Calibri",sans-serif;mso-ascii-theme-font:minor-latin;
    1559 mso-hansi-theme-font:minor-latin'>SASD S53_Ludox6_40pct.dat </span></b>GSAS-II
     1560mso-hansi-theme-font:minor-latin'>SASD S35_Ludox1_40pct.dat </span></b>GSAS-II
    15601561data tree.</p>
    15611562
     
    15771578data set) for <b style='mso-bidi-font-weight:normal'><span style='font-family:
    15781579"Calibri",sans-serif;mso-ascii-theme-font:minor-latin;mso-hansi-theme-font:
    1579 minor-latin'>SASD S53_Ludox6_40pct.dat</span></b>, one sees just one feature
     1580minor-latin'>SASD S35_Ludox1_40pct.dat</span></b>, one sees just one feature
    15801581with oscillations at higher Q. This is the signal for a non-dilute <span
    15811582class=SpellE>scatterer</span>. </p>
  • Tutorials/SimpleMagnetic/SimpleMagnetic.htm

    r3550 r3552  
    16831683<h1>Simple Magnetic Structures in GSAS-II </h1>
    16841684
     1685<P><B>A video version of this tutorial is available at
     1686<A href="https://anl.box.com/v/SimpleMagnetic" target="_blank">
     1687https://anl.box.com/v/SimpleMagnetic</A></B></P>
     1688
    16851689<h2>Introduction</h2>
    16861690
  • Tutorials/Simulation/SimTutorial.htm

    r3342 r3552  
    533533"Times New Roman"'>Simulating Powder Diffraction with GSAS-II<o:p></o:p></span></h1>
    534534
     535<P><B>A video version of this tutorial is available at
     536<A href="https://anl.box.com/v/SimTutorial" target="_blank">
     537https://anl.box.com/v/SimTutorial</A></B></P>
     538
    535539<p class=MsoNormal><span style='font-size:12.0pt;mso-fareast-font-family:"Times New Roman";
    536540mso-bidi-font-family:"Times New Roman"'>While GSAS-II provides an environment
  • Tutorials/StartingGSASII/Starting GSAS.htm

    r2965 r3552  
    11861186<h1>Starting GSAS-II </h1>
    11871187
    1188 <p class=MsoNormal>This is done in different ways, depending on your OS and how
     1188<P><B>A video version of this tutorial is available at
     1189<A href="https://anl.box.com/v/StartingGSAS" target="_blank">
     1190https://anl.box.com/v/StartingGSAS</A></B></P>
     1191 
     1192<p class=MsoNormal>Starting GSAS-II is done in different ways, depending on your OS and how
    11891193GSAS-II is installed. </p>
    11901194
     
    12121216<p class=MsoNormal><o:p>&nbsp;</o:p></p>
    12131217
    1214 <p class=MsoNormal>On Windows, there is a GSASII.bat file in the main GSASII
    1215 directory you can use as a shortcut. Put a shortcut to it someplace convenient
    1216 (maybe on your Desktop?) </p>
    1217 
     1218<p class=MsoNormal>On Windows, the installer will usually create a
     1219RunGSASII.bat file in the main GSASII
     1220directory and place a shortcut to this file on
     1221the Desktop, but it can be moved where desired.</p>
     1222
     1223  <p class=MsoNormal><o:p>&nbsp;</o:p></p>
     1224
     1225On the Mac, the installer creates a GSASII.app file in the main GSASII
     1226directory, which can be dragged to the doc. One can create a shortcut
     1227  to this file and the shortcut can be moved, for example to the
     1228desktop, but do not move the GSASII.app file.
     1229 
    12181230<p class=MsoNormal><o:p>&nbsp;</o:p></p>
    12191231
    1220 <p class=MsoNormal>You should see three windows, two of which are almost empty.
     1232<p class=MsoNormal>When GSAS-II starts, you should see three windows, two of which are almost empty.
    12211233The topmost one is a vertically split window; we will refer to this as the <b
    12221234style='mso-bidi-font-weight:normal'><span style='font-family:"Calibri",sans-serif;
     
    12451257of the <b style='mso-bidi-font-weight:normal'><span style='font-family:"Calibri",sans-serif;
    12461258mso-ascii-theme-font:minor-latin;mso-hansi-theme-font:minor-latin;mso-bidi-theme-font:
    1247 minor-latin'>Data Window</span></b>; on a Mac these menus will appear in the
    1248 system menu bar location (usually at the screen top) depending on which GSAS-II
    1249 window has the focus. The items in the menu bar are separated by a vertical
     1259minor-latin'>Data Window</span></b>; on a Mac this menu will appear in the
     1260system menu bar location (usually at the screen top).
     1261The items in the menu bar are separated by a vertical
    12501262bar; those to the left “File
    12511263” are global for the GSAS-II project and those to
  • Tutorials/TOF-CW Joint Refinement/TOF combined XN Rietveld refinement in GSAS.htm

    r3074 r3552  
    11761176Rietveld refinement with TOF data in GSAS-II<o:p></o:p></span></h1>
    11771177
     1178<P><B>A video version of this tutorial is available at
     1179<A href="https://anl.box.com/v/TOFcombinedXNRietveldrefinemen" target="_blank">
     1180https://anl.box.com/v/TOFcombinedXNRietveldrefinemen</A></B></P>
     1181
     1182
     1183 
    11781184<h2><span style='mso-fareast-font-family:"Times New Roman"'>Introduction: <o:p></o:p></span></h2>
    11791185
  • Tutorials/fixhelp.sh

    r1705 r3552  
    11# Set flags for new tutorials, switched to current dir
    2 svn propset svn:mime-type text/html ../Tutorials/*/*.htm
    3 svn propset svn:mime-type application/octet-stream ../Tutorials/*/*/*.png
    4 svn propset svn:mime-type application/octet-stream ../Tutorials/*/*/*.jpg
    5 svn propset svn:mime-type application/octet-stream ../Tutorials/*/*/*.gif
     2svn propset svn:mime-type text/html */*.htm*
     3svn propset svn:mime-type application/octet-stream */*/*.png
     4svn propset svn:mime-type application/octet-stream */*/*.jpg
     5svn propset svn:mime-type application/octet-stream */*/*.gif
  • trunk/help/Tutorials.html

    r3544 r3552  
    1313</UL><h4>Getting started</H4><UL>
    1414<LI><A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/StartingGSASII/Starting GSAS.htm">Starting GSAS-II</A>
     15 [link: <A href="https://anl.box.com/v/StartingGSAS">video</A>]
    1516 [No exercise files].
    1617<blockquote><I>An introduction to GSAS-II with starting instructions and a brief description of the displays.</I></blockquote>
    1718</UL><h4>Rietveld refinement</H4><UL>
    1819<LI><A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/CWNeutron/Neutron CW Powder Data.htm">CW Neutron Powder fit for Yttrium-Iron Garnet</A>
     20 [link: <A href="https://anl.box.com/v/NeutronCWPowderData">video</A>]
    1921 [link: <A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/CWNeutron/data">Exercise files</A>].
    2022<blockquote><I>This shows a simple Rietveld refinement with constraints from CW neutron powder diffraction data.</I></blockquote>
    2123<LI><A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/LabData/Laboratory X.htm">Fitting laboratory X-ray powder data for fluoroapatite</A>
     24 [link: <A href="https://anl.box.com/v/LaboratoryX">video</A>]
    2225 [link: <A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/LabData/data">Exercise files</A>].
    2326<blockquote><I>This shows a simple Rietveld refinement with CuKa lab Bragg-Brentano powder data.</I></blockquote>
    2427<LI><A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/CWCombined/Combined refinement.htm">Combined X-ray/CW-neutron refinement of PbSO4</A>
     28 [link: <A href="https://anl.box.com/v/Combinedrefinement">video</A>]
    2529 [link: <A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/CWCombined/data">Exercise files</A>].
    2630<blockquote><I>This shows Rietveld refinement of a structure with room temperature lab CuKa data and low temperature CW neutron data;
    2731     use is made of the lattice parameter offsets to account for thermal expansion.</I></blockquote>
    2832<LI><A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/TOF-CW Joint Refinement/TOF combined XN Rietveld refinement in GSAS.htm">Combined X-ray/TOF-neutron Rietveld refinement</A>
     33 [link: <A href="https://anl.box.com/v/TOFcombinedXNRietveldrefinemen">video</A>]
    2934 [link: <A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/TOF-CW Joint Refinement/data">Exercise files</A>].
    3035<blockquote><I>This shows Rietveld refinement with high resolution synchrotron powder data and neutron TOF data</I></blockquote>
    31 <LI><A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/SimpleMagnetic/Simple Magnetic.htm">Simple Magnetic Structure Analysis</A>
     36<LI><A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/SimpleMagnetic/SimpleMagnetic.htm">Simple Magnetic Structure Analysis</A>
     37 [link: <A href="https://anl.box.com/v/SimpleMagnetic">video</A>]
    3238 [link: <A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/SimpleMagnetic/data">Exercise files</A>].
    3339<blockquote><I>Analysis of a simple antiferromagnet and a simple ferromagnet from CW neutron powder data</I></blockquote>
    3440<LI><A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/Simulation/SimTutorial.htm">Simulating Powder Diffraction with GSAS-II</A>
     41 [link: <A href="https://anl.box.com/v/SimTutorial">video</A>]
    3542 [link: <A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/Simulation/data">Exercise files</A>].
    3643<blockquote><I>This show how to create a simulated powder pattern from a lab diffractometer.</I></blockquote>
    3744<LI><A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/BkgFit/FitBkgTut.htm">Fitting the Starting Background using Fixed Points</A>
     45 [link: <A href="https://anl.box.com/v/FitBkgTut">video</A>]
    3846 [link: <A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/BkgFit/data">Exercise files</A>].
    3947<blockquote><I>This shows how to get an initial estimate of background parameters from a suite of fixed points
     
    118126<blockquote><I>This shows 3 different methods for determining texture via spherical harmonics from 2D x-ray diffraction images. </I></blockquote>
    119127<LI><A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/DeterminingWavelength/DeterminingWavelength.html">Area Detector Calibration with Multiple Distances: Determine Wavelength</A>
    120  [link: <A href="https://anl.box.com/v/DeterminingWavelength">video</A>].
     128 [link: <A href="https://anl.box.com/v/DeterminingWavelength">video</A>]
    121129 [link: <A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/DeterminingWavelength/data">Exercise files</A>].
    122130<blockquote><I>To get an accurate wavelength, without knowing the sample-to-detector distance accurately, images recorded with
     
    124132     This exercise is the prerequisite for the next one.</I></blockquote>
    125133<UL><LI><A href="https://subversion.xray.aps.anl.gov/pyGSAS/Tutorials/CalibrationTutorial/CalibrationTutorial.html">Area Detector Calibration with Multiple Distances: Calibrate Detector Distances</A> <A href="#prereq">*</A>
    126  [link: <A href="https://anl.box.com/v/CalibrationTutorial">video</A>].
     134 [link: <A href="https://anl.box.com/v/CalibrationTutorial">video</A>]
    127135 [No exercise files].
    128136<blockquote><I>To get an accurate wavelength, without knowing the sample-to-detector distance accurately, images recorded with
  • trunk/makeTutorial.py

    r3545 r3552  
    7171            vname = 'https://anl.box.com/v/' + os.path.splitext(l[1])[0].replace(' ','')[:30]
    7272            if requests.get(vname).status_code == 200:
    73                 print(' [link: <A href="{}">video</A>].'.format(vname),file=out)
     73                print(' [link: <A href="{}">video</A>]'.format(vname),file=out)
    7474                #print('Found video',vname)
    7575            else:
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