A first principles study of the in-plane strain effects on the dielectric constant of high- kappa; Be0.25Mg0.75O superlattice

Yoon Seungjae; Han Gyuseung; Ye Kun HeeJeong TaeyoungHwang Cheol SeongChoi Jung-Hae

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A first principles study of the in-plane strain effects on the dielectric constant of high- kappa; Be0.25Mg0.75O superlattice

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The effects of in-plane strain on the dielectric constant of the Be0.25Mg0.75O rock salt superlattice are investigated through ab initio thermodynamics calculations. Based on a previous report that the long apical Be-O bond increased the dielectric constant, the in-plane compressive strain dielectric constant is expected to increase the dielectric constant. Unlike the zero-strain case, the apical Mg-O bonds also contribute to the increase in the dielectric constant under compressive strain. However, small Be ions tend to occupy narrow spaces in the MgO-based rock salt structure, which can lead to an increase in dielectric constant even under in-plane tensile strain, depending on the local position of Be ions and its interaction with O ions. At higher temperatures, several configurations under strain showed a significant increase in the dielectric constant due to the elongation of the apical Be-O bond. Considering temperature and strain comprehensively, this study suggests that the Be0.25MgO0.75O superlattice under -2 in-plane compressive strain could be a promising candidate structure for achieving a high-? value of approximately 30.

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来源
《Journal of Applied Physics》 |2023年第5期|054102-1-054102-10|共10页
作者
Yoon Seungjae; Han Gyuseung; Ye Kun HeeJeong TaeyoungHwang Cheol SeongChoi Jung-Hae;
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作者单位

Korea Inst Sci & Technol;

Seoul Natl Univ;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种英语
中图分类应用物理学;
关键词
TOTAL-ENERGY CALCULATIONS; PHASE-TRANSITION; BEO; MEMORY;

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A first principles study of the in-plane strain effects on the dielectric constant of high- kappa; Be0.25Mg0.75O superlattice

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