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

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

We present atomic-scale computer simulations in equiatomic L1\(_0\)-CoPt where Molecular Dynamics and Monte Carlo techniques have both been applied to study the vacancy-atom exchange and kinetics relaxation. The atomic potential is determined using a Tight-Binding formalism within the Second-Moment...

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Veröffentlicht in:arXiv.org 2005-04
Hauptverfasser: Allalen, M, Bouzar, H, Mehaddene, T
Format: Artikel
Sprache:eng
Schlagworte:
Cobalt base alloys
Cobalt compounds
Computer simulation
Exchanging
Intermetallic compounds
Long range order
Migration
Molecular dynamics
Monte Carlo simulation
Order-disorder transformations
Platinum compounds
Saddle points
Transition temperature
Vacancies
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Zusammenfassung:We present atomic-scale computer simulations in equiatomic L1\(_0\)-CoPt where Molecular Dynamics and Monte Carlo techniques have both been applied to study the vacancy-atom exchange and kinetics relaxation. The atomic potential is determined using a Tight-Binding formalism within the Second-Moment Approximation. It is used to evaluate the different saddle-point energies involved in a vacancy-atom exchange between nearest-neighbour sites. The potential and the saddle-point energies have been used to simulate the relaxation of the long-range order in CoPt using a Monte Carlo technique. A vacancy migration energy of \(0.73\pm 0.15 eV\) and an order-disorder transition temperature of 935 K have been found.
ISSN:2331-8422
DOI:10.48550/arxiv.0504504