Changes between Version 13 and Version 14 of GiBUU_Code_history

Timestamp:

Nov 21, 2008, 9:55:41 AM (16 years ago)

Author:

oliver

Comment:

--

GiBUU_Code_history

@@ -11 +11 @@
 the code was applied to elementary collisions on a nucleus, as e.g. of photon- and pion-induced reactions. 
 In the years 2000-05, '''Thomas Falter''' worked on the description of high-energy non-resonant electron-induced
-reactions. Together with '''Kai Gallmeister''' a picture for the time-dependence of fragmentation
-was established. '''Alexei Larionov''' has been working on the description of heavy
+reactions. Together with '''[wiki:kai  Kai Gallmeister]''' a picture for the time-dependence of fragmentation
+was established. '''[wiki:alexei Alexei Larionov]''' has been working on the description of heavy
 ion collisions in the SIS energy region and above; as a major topic, he studied the influence of
 medium-dependent cross sections. Together with '''Markus Wagner'''
@@ -22 +22 @@
 changes of meson properties within the medium.
 
-'''Oliver Buss''' during [http://theorie.physik.uni-giessen.de/documents/dissertation/buss.pdf his PhD] (2004-08) did a complete rewrite of the code and transformed it to a modular, modern FORTRAN version. Since this point we label the code by '''"GiBUU"'''.
+'''[wiki:oliver Oliver Buss]''' during [http://theorie.physik.uni-giessen.de/documents/dissertation/buss.pdf his PhD] (2004-08) did a complete rewrite of the code and transformed it to a modular, modern FORTRAN version. Since this point we label the code by '''"GiBUU"'''.
 
-While O.Buss was rewriting the basic ingredients as e.g. the propagation routines, the first person to join the new code structure was T.Falter with his high-energetic electron-induced reactions.
-Later, also A.Larionov and K.Gallmeister joined the initiative. 
-A.Larionov took care of the implementation of strangeness
-production and improved the baryon-baryon cross sections. Furthermore, he included a relativistic
-mean field in the propagation, which can now be used alternatively to the Skyrme mean field.
-In a joined effort, O.Buss and K.Gallmeister implemented the local ensemble
+While O. Buss was rewriting the basic ingredients as e.g. the propagation routines, the first person to join the new code structure was T. Falter with his high-energetic electron-induced reactions.
+Later, also A. Larionov and K. Gallmeister joined the initiative. A. Larionov took care of the implementation of strangeness production and improved the baryon-baryon cross sections. Furthermore, he included a relativistic mean field in the propagation, which can now be used alternatively to the Skyrme mean field. In a joined effort, O.Buss and K.Gallmeister implemented the local ensemble
 method. This algorithm was not included in the precursor Effenberger-Teis version and
 improved the speed of the full ensemble simulations. K.Gallmeister was also a major player in
 the speed-up of the core routines and the basic Makefile design. 
 Furthermore, he managed to replace FRITIOF by a modified PYTHIA version. 
-In 2006, '''Tina Leitner''' joined the project and implemented
+In 2006, '''[wiki:tina Tina Leitner]''' joined the project and implemented
 her model for neutrino-nucleon interactions and shared the work-load in the
-implementation of the off-shell potential. Lately, also '''Theo Gaitanos''' (nuclear fragmentation), 
-'''David Kalok''' (nucleon spectral functions), '''Birger Steinmüller''' (ground state properties) and
-'''Janus Weil''' (dileptons and vector meson production, gfortran compatibility) contributed to
+implementation of the off-shell potential. Lately, also '''[wiki:theo Theo Gaitanos]''' (nuclear fragmentation), 
+'''[wiki:david David Kalok]''' (nucleon spectral functions), '''[wiki:birger Birger Steinmüller]''' (ground state properties) and
+'''[wiki:janus Janus Weil]''' (dileptons and vector meson production, gfortran compatibility) contributed to
 the new code.