Saddle-point energies and Monte Carlo simulation of the long-range order relaxation in CoPt

Allalen, Mohammed; Bouzar, H.; Mehaddene, T.

doi:10.1140/epjb/e2005-00206-4

Cited by 9 publications

(8 citation statements)

References 47 publications

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“…77 Nevertheless, we consider the obtained cluster expansion to be reliable for qualitative estimation of configurational effects within the most technologically interesting region of low/medium temperatures. In other theoretical simulations of Co-Pt, 25,26,[78][79][80][81][82] the predicted bulk order-disorder transition temperatures are substantially lower than those measured experimentally.…”

Section: Bulk Equiatomic Cluster Expansionmentioning

confidence: 60%

Tuning ofL10atomic order in Co-Pt nanoparticles:Ab initioinsights

Chepulskii

Butler

2012

Phys. Rev. B

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Monte Carlo simulation of the atomic configurational behavior of Co-Pt nanoparticles is performed in wide temperature-composition-size ranges. The simulation is based on bulk and local (inhomogeneous) cluster expansions calculated from first principles. A sharp drop of equilibrium L1 0 order is predicted for small equiatomic particles at low temperatures. This drop is explained by the interplay of two effects. First, the strong Pt and Co segregation to the first and second surface layers, respectively (core/Co/Pt or "onion2shell" profile) cause a depletion of Pt atoms within the core of small Co-Pt particles. Second, L1 0 is an adaptive structure on the fcc-restricted ground-state phase diagram of Co-Pt. Nevertheless, we show that a remarkable degree of L1 0 order can be restored by tuning the total composition of small Co-Pt particles.

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Section: Bulk Equiatomic Cluster Expansionmentioning

confidence: 60%

Tuning ofL10atomic order in Co-Pt nanoparticles:Ab initioinsights

Chepulskii

Butler

2012

Phys. Rev. B

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“…It was, however, pointed out [26] that the classical empirical potentials can, in principle, describe the right behavior of magnetic systems by including specific correction terms responsible for magnetic interactions. This idea is supported by various MC calculations of the order-disorder transition in Co-Pt alloys using classical potentials: the modified embedded-atom method (MEAM) [27,28] and tightbinding second-moment approximation (TB-SMA) [28][29][30]. These potentials were developed without a magnetic term, but it was assumed that the energy state of the ordered phases (L1 0 ,L1 2 ) is lower than that of the chemical disordered fcc phase (A1) and the energy difference correlates with the transition temperature T t as E ≈ k B T t , where k B is the Boltzmann constant.…”

Section: A Potential Developmentmentioning

confidence: 96%

Modification of Pt/Co/Pt film properties by ion irradiation

et al. 2015

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We studied the structural modifications of a Pt/Co/Pt trilayer epitaxial film under Ga + 30-keV ion irradiation by means of classical molecular dynamics and Monte Carlo simulations. The semiclassical tight-binding second-moment approximation potential was adjusted to reproduce the enthalpies of formation, the lattice constants, and the order-disorder transition temperatures for Co-Pt alloys. We found that during irradiation, the sandwich-type Pt(fcc)/Co(hcp)/Pt(fcc) film structure underwent a transition to the new solid solution α-Co/Pt(fcc) phase. Our analysis of the short-range order indicates the formation, within a nanosecond time scale, of a homogeneous chemically disordered solution. The longer timescale simulations employing a Monte Carlo algorithm demonstrated that the transition from the disordered phase to the ordered L1 0 and L1 2 phases was also possible but not significant for the changes in perpendicular magnetic anisotropy (PMA) observed experimentally. The strain analysis showed that the Co layer was under tensile strain in the lateral direction at the fluences of 1.5 × 10 14-3.5 × 10 14 ions cm −2 ; this range of fluences corresponds to the appearance of PMA. This strain was induced in the initially relaxed hcp Co layer due to its partial transformation to the fcc phase and to the influence of atomic layers with larger lattice constants at upper/lower interfaces.

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“…The order-to-disorder transition is abrupt in bulk samples, but becomes smoother in nanometre-sized systems [8][9][10][11][12]. In both cases, experimental as well as theoretical and numerical evidences suggest that the transition proceeds according to a nucleation and growth mechanism governed by vacancymediated diffusion processes, giving rise to a competition between ordering and disordering [13][14][15][16][17][18][19][20][21][22][23][24][25][26].…”

Section: Introductionmentioning

confidence: 97%

Thermodynamic stability of nanometre-sized Cu₃Au systems

Delogu

2011

Nanotechnology

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Classical molecular dynamics simulations have been used to investigate the order-to-disorder transition in bulk and nanometre-sized Cu₃Au systems. The Helmholtz free energy difference between ordered and disordered phases was evaluated at different temperatures through the Bennett's method. The change of free energy differences with temperature was employed to identify the transition temperatures. The obtained information was used to study the dynamics of a nanometre-sized Cu₃Au particle in a He gas thermostat at the transition temperature. It is shown that the system underwent rapid fluctuation in the chemical order degree related to the formation of vacancies and of atoms with defective coordination. Additional information on surface energies was also gained through a thermodynamic description of the transition process.

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Saddle-point energies and Monte Carlo simulation of the long-range order relaxation in CoPt

Cited by 9 publications

References 47 publications

Tuning ofL10atomic order in Co-Pt nanoparticles:Ab initioinsights

Tuning ofL10atomic order in Co-Pt nanoparticles:Ab initioinsights

Modification of Pt/Co/Pt film properties by ion irradiation

Thermodynamic stability of nanometre-sized Cu₃Au systems

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Saddle-point energies and Monte Carlo simulation of the long-range order relaxation in CoPt

Cited by 9 publications

References 47 publications

Tuning ofL10atomic order in Co-Pt nanoparticles:Ab initioinsights

Tuning ofL10atomic order in Co-Pt nanoparticles:Ab initioinsights

Modification of Pt/Co/Pt film properties by ion irradiation

Thermodynamic stability of nanometre-sized Cu3Au systems

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Thermodynamic stability of nanometre-sized Cu₃Au systems