High-pressure structure prediction and high-temperature structural stability of periclase

Ting Song; Xiao-Wei Sun; Xiao-Ping Wei; Yu-Hua Ouyang; Chun-Lin Zhang; Peng Guo; Wei Zhao

doi:10.7498/aps.68.20190204

Journals >Acta Physica Sinica >Volume 68 >Issue 12 >Page 126201-1 > Article

Acta Physica Sinica
Vol. 68, Issue 12, 126201-1 (2019)

High-pressure structure prediction and high-temperature structural stability of periclase

Ting Song, Xiao-Wei Sun^*, Xiao-Ping Wei, Yu-Hua Ouyang, Chun-Lin Zhang, Peng Guo, and Wei Zhao

DOI: 10.7498/aps.68.20190204 Cite this Article

Ting Song, Xiao-Wei Sun, Xiao-Ping Wei, Yu-Hua Ouyang, Chun-Lin Zhang, Peng Guo, Wei Zhao. High-pressure structure prediction and high-temperature structural stability of periclase[J]. Acta Physica Sinica, 2019, 68(12): 126201-1 Copy Citation Text

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Volume ratios of MgO with NaCl-type structure under pressures at zero temperature, in comparison with the experimental data.模拟得到的零温下MgO岩盐结构的体积比率随压力的变化及和实验结果的比较

Fig. 1. Volume ratios of MgO with NaCl-type structure under pressures at zero temperature, in comparison with the experimental data.模拟得到的零温下MgO岩盐结构的体积比率随压力的变化及和实验结果的比较

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Probable crystal structures of MgO (the large and small spheres represent magnesium and oxygen atoms, respectively): (a) B1; (b) B2; (c) B3; (d) B4; (e) B81; (f) B82; (g)P3m1.MgO晶体的可能结构(其中大球代表Mg原子, 小球代表O原子) (a) B1; (b) B2; (c) B3; (d) B4; (e) B81; (f) B82; (g) P3m1

Fig. 2. Probable crystal structures of MgO (the large and small spheres represent magnesium and oxygen atoms, respectively): (a) B1; (b) B2; (c) B3; (d) B4; (e) B8₁; (f) B8₂; (g)P3m1. MgO晶体的可能结构(其中大球代表Mg原子, 小球代表O原子)　(a) B1; (b) B2; (c) B3; (d) B4; (e) B8₁; (f) B8₂; (g) P3m1

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Fig. 3. Calculated relative enthalpies of MgO with B1, B2, B3, B4, B8₁, B8₂ and P3m1 phases as a function of pressure at zero temperature. 计算得到的MgO晶体在零温下的B1, B2, B3, B4, B8₁, B8₂和P3m1各可能结构的相对焓随压力的变化

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Fig. 4. Calculated phonon spectra of MgO with B1 (a), B3 (b), B4 (c), B8₁ (d), B8₂ (e), P3m1 (f) and B2 (g) phases at 0 GPa and with B2 phase at 580 GPa (h). 计算得到的MgO晶体B1 (a), B3 (b), B4 (c), B8₁ (d), B8₂ (e), P3m1 (f)和B2 (g)结构在零压下的声子谱和B2结构在相变压力为580 GPa下的声子谱(h)

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Fig. 5. Molecular dynamics calculated volume of MgO with NaCl-type structure as a function of temperature at zero pressure.分子动力学模拟得到的零压下的MgO岩盐结构的体积随温度的变化

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Fig. 6. Molecular dynamics calculated total energy of MgO with NaCl-type structure as a function of temperature at zero pressure.分子动力学模拟得到的零压下的MgO岩盐结构的总能随温度的变化

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Fig. 7. Molecular dynamics calculated melting phase diagram of MgO with NaCl-type structure as a function of pressure up to 150 GPa.分子动力学模拟得到的MgO岩盐结构压力达150 GPa的熔化相图

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	Parameter	SM-SS	SM-LC	BSM	BG
Mg-O	A_ij/eV	1346.6	821.6	1822.0	929.69
	ρ_ij/Å	0.2984	0.3243	0.32448	0.29909
	C_ij/eV·Å⁶	0.0	0.0	0.0	0.0
O-O	A_ij/eV	22764.4	22764.4	17.22556	4870.0
	ρ_ij/Å	0.149	0.149	0.65664	0.267
	C_ij/eV·Å⁶	20.37	20.37	1.1×10^–7	77.0