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|Publication type:||Book part|
|Type of review:||Editorial review|
|Title:||Self-ordering in the dynamics of forming periodic 1D-structures controlled by external irradiation|
|Authors:||Gorshkov, Vyacheslav N.|
Tereshchuk, Volodymyr V.
Bereznykov, Oleksii V.
Boiger, Gernot K.
Fallah, Arash S.
|Published in:||Prime Archives in Nanotechnology|
|Editors of the parent work:||Jackson, Tenderwealth Clement|
|Publisher / Ed. Institution:||Vide Leaf|
|Publisher / Ed. Institution:||Hyderabad|
|Subjects:||Self-ordering-structure; External irradiation; Acoustic meta material; Multiphysics; Periodic structure|
|Subject (DDC):||620: Engineering|
|Abstract:||We have studied the striking effect of external irradiation of nanowires on the dynamics of their surface morphology at elevated temperatures that do not destroy their crystal lattice. Numerical experiments performed on the basis of the Monte Carlo model revealed new possibilities for controlled periodic modulation of the cross section of quasi-one-dimensional nanostructures for opto- and nanoelectronic elements. These are related to the fact that external irradiation stimulates the surface diffusion of atoms. On the one hand, such stimulation should accelerate the development of the well-known spontaneous thermal instability of nanowires (Rayleigh instability), which leads to their disintegration into nanoclusters. On the other hand, Prime Archives in Nanotechnology3 www.videleaf.comthis leads to the forced development of the well-known roughening transition (RT) effect. Under normal circumstances, this manifests itself on selected crystal faces at a temperature above the critical one. The artificial stimulation of this effect on the lateral surface of quasi-one-dimensional structures determines many unpredictable scenarios of their surface dynamics, which essentially depend on the orientation of the nanowire axis relative to its internal crystal structure. In particular, long-wave Rayleigh breakup observed in absence of external irradiation transforms into strongly pronounced short wave metastable modulations of the cross section (a chain of unduloids). The effect of the self-consistent relationship between the Rayleigh instability and RT is dimensional and can be observed only at relatively small nanowire radii. The fact is analyzed that for the manifestation of this effect, it is very important to prevent significant heating of the nanowire when surface diffusion is stimulated. A number of developed theoretical concepts have already found confirmation in real experiments with Au- and Ag-nanowires irradiated by electrons and Ar+ -ions, respectively.|
|Fulltext version:||Published version|
|License (according to publishing contract):||CC BY 4.0: Attribution 4.0 International|
|Departement:||School of Engineering|
|Organisational Unit:||Institute of Computational Physics (ICP)|
|Appears in collections:||Publikationen School of Engineering|
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|2022_Gorshkov-etal_Self-Ordering-in-the-Dynamics-of-Forming-Periodic-1D-Structures.pdf||1.6 MB||Adobe PDF|
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Gorshkov, V. N., Tereshchuk, V. V., Bereznykov, O. V., Boiger, G. K., & Fallah, A. S. (2022). Self-ordering in the dynamics of forming periodic 1D-structures controlled by external irradiation. In T. C. Jackson (Ed.), Prime Archives in Nanotechnology. Vide Leaf. https://doi.org/10.21256/zhaw-26032
Gorshkov, V.N. et al. (2022) ‘Self-ordering in the dynamics of forming periodic 1D-structures controlled by external irradiation’, in T.C. Jackson (ed.) Prime Archives in Nanotechnology. Hyderabad: Vide Leaf. Available at: https://doi.org/10.21256/zhaw-26032.
V. N. Gorshkov, V. V. Tereshchuk, O. V. Bereznykov, G. K. Boiger, and A. S. Fallah, “Self-ordering in the dynamics of forming periodic 1D-structures controlled by external irradiation,” in Prime Archives in Nanotechnology, T. C. Jackson, Ed. Hyderabad: Vide Leaf, 2022. doi: 10.21256/zhaw-26032.
Gorshkov, Vyacheslav N., et al. “Self-Ordering in the Dynamics of Forming Periodic 1D-Structures Controlled by External Irradiation.” Prime Archives in Nanotechnology, edited by Tenderwealth Clement Jackson, Vide Leaf, 2022, https://doi.org/10.21256/zhaw-26032.
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