Bergman-type medium-range order in rapidly quenched Ag0.74Ge0.26 eutectic alloy studied by ab initio molecular dynamics simulation

Ke, Fu-Shun; Yue, Guoqiang; Shen, Bo; Dong, Fuyu; Wang, S Y; Zheng, Yuanzhou; Chen, L Y; Wang, Cai‐Zhuang; Ho, Kai‐Ming

doi:10.1016/j.actamat.2014.06.049

Cited by 19 publications

(5 citation statements)

References 35 publications

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“…This method has been applied to directly visualize the average local short-range order and medium range order [83][84][85]. Thus, the cluster alignment method is applied to further elucidate the short-range order difference between high-and low-temperature regions in 9 liquid Ga. 2000 clusters are randomly selected from the AIMD simulation trajectories at four selected temperatures of 600, 1000, 1200 and 1600 K. Each cluster consists of 16 atoms.…”

Section: Local Atomistic Structurementioning

confidence: 99%

Temperature-dependent structure evolution in liquid gallium

Xiong

Wang

et al. 2017

Acta Materialia

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Temperature-dependent atomistic structure evolution of liquid gallium (Ga) has been investigated by using in situ high energy X-ray diffraction experiment and ab initio molecular dynamics simulation. Both experimental and theoretical results reveal the existence of a liquid structural change around 1000 K in liquid Ga. Below and above this temperature the liquid exhibits differences in activation energy for self-diffusion, temperature-dependent heat capacity, coordination numbers, density, viscosity, electric resistivity and thermoelectric power, which are reflected from structural changes of the bond-orientational order parameter Q 6 , fraction of covalent dimers, averaged string length and local atomic packing. This finding will trigger more studies on the liquid-to-liquid crossover in metallic melts.

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Section: Local Atomistic Structurementioning

confidence: 99%

Temperature-dependent structure evolution in liquid gallium

Xiong

Wang

et al. 2017

Acta Materialia

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“…A Bergman-type cluster is one of the MROs in MGs, and is an icosahedral-based cluster which, moving outward from the center atom, forms an icosahedron, dodecahedron, and a larger icosahedron [19,20]. The Bergman-type MRO seems to be related to splitting in the second peak of the PDF in a Cu-Zr system [18,21] and an Ag0.74Ge0.26 alloy [22]. The positions of the two sub-peaks formed by the splitting of the second peak are the same as the maxima of the corresponding distribution of the second and third shells of the Bergman-type cluster.…”

Section: Introductionmentioning

confidence: 99%

Bergman-type medium range order in amorphous Zr77Rh23 alloy studied by ab initio molecular dynamics simulations

Guo

Qiao

Wang

et al. 2019

Journal of Alloys and Compounds

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In recent years, some arguments about the existence of medium-range order (MRO) in the Zr-Rh system have been put forward. However, research on the structural features of the Zr-Rh binary alloy at the atomic level is still lacking. This study uses ab initio molecular dynamics simulations to systematically study the local structures of Zr77Rh23 from the liquid to the glassy states. Pair correlation function (PCF), coordination number (CN), Honeycutt-Anderson(HA) index, bond-angle distribution functions, and the Voronoi tessellation method are used to reveal a clear icosahedral-like configuration in the amorphous Zr77Rh23 alloy. It is noteworthy that the splitting in the second peak of the partial PDF implies the existence of a medium range order (MRO) in the Zr77Rh23 system. We obtain the local order in three-dimensional atomic density distributions by using a new atomistic cluster alignment (ACA) method. Interestingly, a Bergman-type MRO is observed in the glassy Zr77Rh23. Furthermore, the spatial distribution and connections of icosahedral-like clusters are shown to further demonstrate the MRO network. Our findings shed light on the nature of atomic local structures of amorphous Zr77Rh23 alloy and have important implications to understanding the formation of various MROs in metallic glasses.

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“…The 7 atom template represents the short-range order, and the template with 19 atoms represents the medium-range order. Unlike some metallic glasses 42 where icos is the dominating local motif, the amount of icos, bcc, fcc, hcp and zb in Ga 16 Sb 84 is not detectable with the temperature change. The fraction of rhombohedral clusters for 7 and 19 atom templates for different centered clusters are illustrated in Fig.…”

Section: Resultsmentioning

confidence: 68%

Optical Properties and Local Structure Evolution during Crystallization of Ga16Sb84 Alloy

Dong

Guo

Qiao

et al. 2018

Sci Rep

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Phase-change memory is one of the most promising candidates for future memory technologies. However, most of the phase-change memories are based on chalcogenides, while other families of materials for this purpose remain insufficiently studied. In this work, we investigate the optical properties and microstructure of Ga16Sb84 by an in-situ ellipsometer and X-ray diffraction. Our experimental results reveal that the Ga16Sb84 films exhibit a relatively high crystallization temperature of ~250 °C, excelling in long data retention. In addition, a large optical contrast exists between the amorphous and crystalline states, which may make it suitable for use in optical discs. Molecular dynamics simulations indicate that a unique local structure order in the amorphous and crystalline phases is responsible for the optical properties observed in the experiment. The similarity found in the short-range orders of the amorphous and crystalline phases is beneficial to better understanding the fast phase transition of phase-change memory.

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Bergman-type medium-range order in rapidly quenched Ag0.74Ge0.26 eutectic alloy studied by ab initio molecular dynamics simulation

Cited by 19 publications

References 35 publications

Temperature-dependent structure evolution in liquid gallium

Temperature-dependent structure evolution in liquid gallium

Bergman-type medium range order in amorphous Zr77Rh23 alloy studied by ab initio molecular dynamics simulations

Optical Properties and Local Structure Evolution during Crystallization of Ga16Sb84 Alloy

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