Computational plasma nanoscience : where plasma physics meets surface science
Ostrikov, K., Levchenko, I., & Xu, S. (2007) Computational plasma nanoscience : where plasma physics meets surface science. Computer Physics Communications, 177(1-2), pp. 110-113.
Multiscale hybrid simulations that bridge the nine-order-of-magnitude spatial gap between the macroscopic plasma nanotools and microscopic surface processes on nanostructured solids are described. Two specific examples of carbon nanotip-like and semiconductor quantum dot nanopatterns are considered. These simulations are instrumental in developing physical principles of nanoscale assembly processes on solid surfaces exposed to low-temperature plasmas.
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|Item Type:||Journal Article|
Supplementary issue: Proceedings of the Conference on Computational Physics 2006 — CCP 2006
Conference on Computational Physics 2006
|Keywords:||Building units, Multiscale hybrid simulations, Nanoassembly, Plasma, Surface processes|
|Divisions:||Current > QUT Faculties and Divisions > Science & Engineering Faculty|
|Deposited On:||16 Jul 2014 23:48|
|Last Modified:||17 Jul 2014 23:41|
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