Details
dear developoer, In my previous research, I mainly used Octopus and GPAW to perform charged ion transport calculations for computing stopping power. However, when reading the ABACUS manual, I noticed that there seem to be relatively few related examples. Could the official team provide a similar example like this one: https://gpaw.readthedocs.io/tutorialsexercises/moleculardynamics/ehrenfest/ehrenfest.html#electronic-stopping-in-graphene
Additionally, particularly for scenarios with high-energy ion incidence, using too few bands may lead to inaccurate calculations. Regarding the number of bands (nbands) in the manual, there seems to be a maximum limit. I’m not quite clear on this—is it not possible to exceed the default nbands setting in ABACUS? Or to put it another way, is there a limit on the number of bands for the simulation scenario, or is it unlimited?
thanks!
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Details
dear developoer, In my previous research, I mainly used Octopus and GPAW to perform charged ion transport calculations for computing stopping power. However, when reading the ABACUS manual, I noticed that there seem to be relatively few related examples. Could the official team provide a similar example like this one: https://gpaw.readthedocs.io/tutorialsexercises/moleculardynamics/ehrenfest/ehrenfest.html#electronic-stopping-in-graphene
Additionally, particularly for scenarios with high-energy ion incidence, using too few bands may lead to inaccurate calculations. Regarding the number of bands (nbands) in the manual, there seems to be a maximum limit. I’m not quite clear on this—is it not possible to exceed the default nbands setting in ABACUS? Or to put it another way, is there a limit on the number of bands for the simulation scenario, or is it unlimited?
thanks!
Have you read FAQ on the online manual http://abacus.deepmodeling.com/en/latest/community/faq.html
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