- Title
- Chemical ordering phenomena in nanostructured FePt: Monte Carlo simulations
- Creator
- Brodacka, S.; Kozlowski, M.; Kozubski, R.; Goyhenex, Ch.; Murch, G. E.
- Relation
- Physical Chemistry Chemical Physics Vol. 17, Issue 42, p. 28394-28406
- Publisher Link
- http://dx.doi.org/10.1039/c5cp01054c
- Publisher
- Royal Society of Chemistry
- Resource Type
- journal article
- Date
- 2015
- Description
- Free-surface-induced L1₀ chemical long-range ordering phenomena in a nanolayer, a nanowire and a cubic nanoparticle of FePt were studied by means of Monte Carlo simulations. The system was modeled with nearest-neighbor and next-nearest-neighbor interatomic pair interactions deduced from ab initio calculations. The generated samples, the dimensionality of which was determined by appropriate periodic boundary conditions imposed upon the generated supercells, were initially either perfectly ordered in the c-variant L1₀ superstructure ((001)-oriented monatomic planes), or completely disordered in the fcc crystalline structure. Vacancy-mediated creation of equilibrium atomic configurations was modelled by relaxing the systems at temperatures below the 'order-disorder' transition point using the Glauber algorithm implemented with the vacancy mechanism of atomic migration. The (100)-type-surface-induced heterogeneous nucleation of L1₀-order domains was observed and quantified by means of an original parameterization enabling selective determination of volume fractions of particular L1₀-variants. Due to the specific competition between the three kinds of (100)-type free surfaces, the initial c-L1₀ variant long-range order appeared to be the most stable in the cubic nanoparticle. The initially disordered samples were transformed by the creation of a specific L1₀ domain structure with a mosaic of particular L1₀-variant domains at the surfaces and almost homogeneous long-range order in the inner volume. The analysis of correlation effects revealed that chemical ordering was initiated at the free surfaces.
- Subject
- L1₀; Monte Carlo simulations; FePt; chemical ordering phenomena; nanostructures
- Identifier
- http://hdl.handle.net/1959.13/1313818
- Identifier
- uon:22642
- Identifier
- ISSN:1463-9076
- Language
- eng
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