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Geant4/examples/extended/radioactivedecay/rdecay01/UserData/RadioactiveDecay-readme

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Diff markup

Differences between /examples/extended/radioactivedecay/rdecay01/UserData/RadioactiveDecay-readme (Version 11.3.0) and /examples/extended/radioactivedecay/rdecay01/UserData/RadioactiveDecay-readme (Version 10.1.p1)

  1 
                                              <<   1 
  2 This README file provides instructions for rea <<   2 Lines beginning with either a 'W' or a '#' are comments
  3 schemes in the files zXX.aYYY found in the dir <<   3 
  4 (most recent version).  This directory, as wel <<   4 Lines beginning with a 'P' are a header which describes a level of the  
  5 available from the Geant4 download page 
      <<   5 nucleus.  The first number is the excitation energy in keV, the second is the  
  6 
                                              <<   6 half life in seconds
  7 http://cern.ch/geant4/support/download.shtml
  <<   7 Indented lines under the 'P' lines are decay modes for that  
  8 
                                              <<   8 excitation.  There are two type of records here, distinguished by the  
  9 under the Data files heading. In order to use  <<   9 number of columns.
 10 correctly, you must download and unpack the ab <<  10 
 11 area, and set the environment variable
        <<  11 If there are 3 columns only, this is a header which describes all  
 12 
                                              <<  12 decays of that type from this level.
 13 G4RADIOACTIVEDATA
                             <<  13 The first column is the decay mode, the second column is zero, and the  
 14 
                                              <<  14 third column in the branching ratio to this mode, as a fraction of  
 15 to point to it. 
                              <<  15 unity.  Therefore, the third columns of all the 3-column records under  
 16 
                                              <<  16 a given 'P' line should sum to 1.0.
 17 ********************************************** <<  17 
 18 In each of the files, lines beginning with '#' <<  18 If there are four columns, this is a record which describes a subset  
 19 
                                              <<  19 of the decay type, specific to a given lower level in the daughter  
 20 Lines beginning with a 'P' are headers, indica <<  20 species.  The first column is the decay type, the second column is the  
 21 nucleus which may be parent nuclei for further <<  21 excitation level of the daughter (in keV), and the third column is the  
 22 the excitation energy in keV, followed by a ch <<  22 branching ratio as a percentage (! note... not a fraction of unity) of  
 23 level.  If this is "-", the level is assumed t <<  23 the total branching ratio which came from the 3-column record for this  
 24 +X, +Y, +Z, +W, +U or +V, the level is floatin <<  24 decay.
 25 following this is the half life in seconds.  I << 
 26 are decay modes for that excitation.  There ar << 
 27 distinguished by the number of columns.
       << 
 28 
                                              << 
 29 If there are four columns only, this is a head << 
 30 of each type of decay from this level.  The fi << 
 31 the second column is always zero, the third co << 
 32 is floating or not, as mentioned above, and th << 
 33 branching ratio going through this mode, as a  << 
 34 the fourth column of all the 4-column records  << 
 35 to 1.0.
                                       << 
 36 
                                              << 
 37 If there are five columns, this is a record wh << 
 38 decay type, specific to a given lower level in << 
 39 first column is the decay type, the second and << 
 40 level (keV) of the daughter reached after the  << 
 41 indicator, and the fourth column is the branch << 
 42 (! note... not a fraction of unity) of the tot << 
 43 from the 4-column record for this decay.
      << 
 44 
                                              << 
 45 In the case of beta- or beta+ decay, there wil << 
 46 describing the "forbiddenness" of the particul << 
 47 indicated by the tags firstForbidden, secondFo << 
 48 uniqueFirstForbidden, uniqueSecondForbidden, u << 
 49 determine the shape of the beta spectrum.
     << 
 50 ********************************************** << 
 51 
                                              <<