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Citation: G. Bonny, P. Grigorev, and D. Terentyev (2014), "On the binding of nanometric hydrogen-helium clusters in tungsten", Journal of Physics: Condensed Matter, 26(48), 485001. DOI: 10.1088/0953-8984/26/48/485001.
Abstract: In this work we developed an embedded atom method potential for large scale atomistic simulations in the ternary tungsten–hydrogen–helium (W–H–He) system, focusing on applications in the fusion research domain. Following available ab initio data, the potential reproduces key interactions between H, He and point defects in W and utilizes the most recent potential for matrix W. The potential is applied to assess the thermal stability of various H–He complexes of sizes too large for ab initio techniques. The results show that the dissociation of H–He clusters stabilized by vacancies will occur primarily by emission of hydrogen atoms and then by break-up of V–He complexes, indicating that H–He interaction does influence the release of hydrogen.

Notes: This listing is for the reference's potential parameter set EAM1.

LAMMPS pair_style eam/alloy (2014--Bonny-G--W-H-He-1--LAMMPS--ipr1)
See Computed Properties
Notes: These files were sent by Giovanni Bonny (Nuclear Materials Science Institute of SCK-CEN, Belgium) on 18 Mar. 2016 and posted with his permission. Giovanni Bonny also noted that only W has electron density function and embedding function. The embedding contributions to the energy from H and He are zero.
EAM tabulated functions (2014--Bonny-G--W-H-He-1--table--ipr1)
Notes: Same functions in separate EAM tables.
See Computed Properties
Notes: Listing found at https://openkim.org. This KIM potential is based on the files from 2014--Bonny-G--W-H-He-1--LAMMPS--ipr1.
Date Created: October 5, 2010 | Last updated: June 09, 2022