Ignore:
Timestamp:
Dec 16, 2009, 12:14:47 PM (15 years ago)
Author:
garnier
Message:

CVS update

File:
1 edited

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  • trunk/documents/UserDoc/DocBookUsersGuides/ChangesHistory/ChangesHistory.html

    r1208 r1222  
    1515
    1616<br /><br /><br /><br />
     17
     18
     19<!-- ============================================== Section -->
     20<HR ALIGN="Center">
     21<font COLOR="#238E23">
     22<h2>Version: Geant4 9.3 (December 2009) </h2>
     23</font>
     24<HR ALIGN="Center">
     25<br />
     26
     27<p>
     28<b><u>Installation Guide</u></b>
     29</p>
     30<ul>
     31<b>- Modified Chapters/Sections</b>
     32  <ul>
     33    <li>1. Installation Introduction
     34    <li>2. Installation Procedures
     35    <li>3. Tips for Installing on Windows
     36  </ul>
     37</ul>
     38
     39<p>
     40<b><u>User's Guide: For Application Developers</u></b>
     41</p>
     42<ul>
     43<b>- Newly Added Chapters/Sections</b>
     44  <ul>
     45    <li>3.7.3 Adjoint/Reverse Monte Carlo
     46    <li>4.3.2.6 Reducing the number of field calls to speed-up simulatio
     47    <li>6.2.2 Killing Tracks in User Actions and Energy Conservation 
     48</ul>
     49<br />
     50
     51<b>- Modified Chapters/Sections</b>
     52  <ul>
     53    <li>2.1 How to Define the main() Program
     54    <li>2.4.1 Particle Definition
     55    <li>2.7 How to Make an Executable Program
     56    <li>2.8 How to Set Up an Interactive Session
     57    <li>2.9 How to Execute a Program
     58    <li>3.2 Global  Usage Classes
     59    <li>3.3 System of units
     60    <li>3.7 Event Biasing Techniques
     61    <li>4.1 Geometry
     62    <li>4.1.8 The Geometry Navigator
     63    <li>4.3.2.4 Choosing a Stepper
     64    <li>4.8 Command-based scoring
     65    <li>5.1.1 Basic Concepts
     66    <li>5.1.4 User Actions
     67    <li>5.2.1.2 Low Energy Electromagnetic Processes
     68    <li>5.2.1.3 Very Low energy Electromagnetic Processes (Geant4-DNA extension)
     69    <li>5.2.5 Opptical Photon processes
     70    <li>6.2 Optional User Actions
     71    <li>7.1 Built-in Commands
     72    <li>8.1 Introduction to Visualization
     73    <li>8.2 Adding Visualization to Your Executable
     74    <li>8.3 The Visualization Drivers
     75    <li>8.4 Controlling Visualization from Commands
     76    <li>8.9 Polylines, Markers and Text
     77    <li>9.2 Extended Examples
     78    <li>9.3 Advanced Examples
     79    <li>Appendix 1 Tips for Program Compilation 
     80    <li>Appendix 2 Histogramming
     81    <li>Appendix 5 Makefiles and Environment Variables
     82    <li>Appendix 6 Step-by-Step Installation Guides
     83    <li>Appendix 7 Development and debug tools
     84    <li>Appendix 8 Python Interface
     85  </ul>
     86</ul>
     87
     88<p>
     89<b><u>Physics Reference Manual</u></b>
     90</p>
     91
     92<ul>
     93<b>- Newly Added Chapters/Sections</b>
     94  <ul>
     95    <li>12.10.13 ICRU 73-based energy loss model
     96  </ul>
     97<br />
     98
     99<b>- Modified Chapters/Sections</b>
     100  <ul>
     101    <li>7.4 Conversion from range cut to kinetic energycut
     102    <li>7.5.9 Implementation Details
     103    <li>8.2.1 Cross Section and Energy Loss
     104    <li>9.1 Ionization
     105    <li>12.11 Penelope physics
     106  </ul>
     107</ul>
     108
    17109
    18110<!-- ============================================== Section -->
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