Journal
ACTA MATERIALIA
Volume 254, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.actamat.2023.118992
Keywords
Irradiation effect; Phase transformation; Molecular dynamics
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In this study, the monoclinic to tetragonal phase transition in HfO2 was simulated using molecular dynamics and the two-temperature model. The key factors contributing to the phase transition, including thermal spike and oxygen defects, as well as their coupling effects, were investigated.
Phase transition induced by swift heavy ions in HfO2 are detrimental to the reliability of HfO2-based aerospace devices. In this paper, the monoclinic to tetragonal phase transition in HfO2 has been simulated by molecular dynamics combined with the two-temperature model. The specific roles of thermal spike, oxygen defects, and their coupling effects which have been considered as the key factors contributing to the phase transition in HfO2 were reported. Thermal spike results in sharply enhanced atomic stress, triggering the phase transition. The introduction of oxygen vacancies leads to significant reduction in the stress and corresponding electronic stop-ping threshold for phase transition. In addition, the presence of the oxygen defects results in reduced thermal conductivity and stronger electron-phonon coupling, which enhances the energy transmission to the lattice and further lowers the electronic stopping threshold. Sufficient number of oxygen vacancies are necessary for the survival of tetragonal phase to reduce the average potential energy of atoms.
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