At and mol further: Difference between revisions

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(Created page with "{{Template:At_and_mol}} *How does the energy change when one decreases {{TAG|SIGMA}} to 0.001 in the {{TAG|INCAR}} file starting from the {{TAG|O_atom}}? Why? *Try to copy {...")
 
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*Calculate the vibrational frequencies of the <math>\mathrm{H}_{2}\mathrm{O}</math> molecule (example {{TAG|H2O}}) after relaxation (example {{TAG|H2Ovib}}). Why does one find 3 modes that have small frequencies? Try {{TAG|EDIFF}}=1E-5 instead of {{TAG|EDIFF}}=1E-4.
*Calculate the vibrational frequencies of the <math>\mathrm{H}_{2}\mathrm{O}</math> molecule (example {{TAG|H2O}}) after relaxation (example {{TAG|H2Ovib}}). Why does one find 3 modes that have small frequencies? Try {{TAG|EDIFF}}=1E-5 instead of {{TAG|EDIFF}}=1E-4.


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[[VASP_example_calculations|To the list of examples]] or to the [[The_VASP_Manual|main page]]
[[VASP_example_calculations|To the list of examples]] or to the [[The_VASP_Manual|main page]]
[[Category:Examples]]

Revision as of 12:23, 3 July 2017

  • How does the energy change when one decreases SIGMA to 0.001 in the INCAR file starting from the O_atom? Why?
  • Try to play with the parameter POTIM for the example O_dimer. What is the optimal value?
  • What is the reason for the imaginary frequency in the example CO_vibration? Does the behaviour improve when the step width (smaller or larger) is changed? Also try to improve the precision to which the ground state is converged (EDIFF=1E-5). What happens if the accuracy of the calculations is improved (PREC=Accurate}}).
  • Try to use the conjugate gradient algorithm to the molecule (example H2O).
  • Calculate the vibrational frequencies of the molecule (example H2O) after relaxation (example H2Ovib). Why does one find 3 modes that have small frequencies? Try EDIFF=1E-5 instead of EDIFF=1E-4.

To the list of examples or to the main page