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sjplimp 2ab478095e git-svn-id: svn://svn.icms.temple.edu/lammps-ro/trunk@7733 f3b2605a-c512-4ea7-a41b-209d697bcdaa 2012-02-09 16:14:12 +00:00
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README Added README files to subdirectories 2011-02-21 19:01:30 +00:00
data.CHO Added some new ReaxFF examples 2011-02-19 03:56:58 +00:00
ffield.reax.cho Added some new ReaxFF examples 2011-02-19 03:56:58 +00:00
in.CHO git-svn-id: svn://svn.icms.temple.edu/lammps-ro/trunk@7733 f3b2605a-c512-4ea7-a41b-209d697bcdaa 2012-02-09 16:14:12 +00:00
lmp_control Added some new ReaxFF examples 2011-02-19 03:56:58 +00:00
log.reaxc.cho.18Feb11.linux.1 Added some new ReaxFF examples 2011-02-19 03:56:58 +00:00
log.reaxc.cho.18Feb11.linux.4 Added some new ReaxFF examples 2011-02-19 03:56:58 +00:00
param.qeq Added some new ReaxFF examples 2011-02-19 03:56:58 +00:00

README 

Disclaimer:  Using these force fields for systems they 
have not been explicitly trained against may produce
unrealistic results.  Please see the README file in 
each subdirectory for more detailed information.

Hydrocarbon oxidation C/H/O:

     The follow information is reproduced from:

     "Chenoweth, K.; van Duin, A.C.T.; Goddard, W.A. 
     J. Phys. Chem. A 2008, 112, 1040-1053."

     - To obtain the H/C/O compound data required to 
     extend the hydrocarbon-training set, DFT 
     calculations were performed on the following systems: 
     (a) dissociation energies for various bonds 
     containing carbon, oxygen, and hydrogen.  The 
     ground state structure was obtained through 
     full geometry optimization.  Dissociation curves 
     were calculated by constraining only the bond length of 
     interest and re-optimization of the remaining 
     internal coordinates. Optimization was also performed 
     for the various angles and torsions associated 
     with C/H/O interactions.