First-principles study of structural stability, electronic and elastic properties of ZrC compounds

Lv Z.; Hu H.; Wu C.; Cui S.; Zhang G.; Feng W.

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First-principles study of structural stability, electronic and elastic properties of ZrC compounds

机译：ZrC化合物的结构稳定性，电子和弹性性质的第一性原理研究

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We theoretically study the possible pressure-induced structural phase transition, electronic and elastic properties of ZrC by using first-principles calculations based on density functional theory (DFT), in the presence and absence of spinorbit coupling (SOC). The calculations indicate that there exists a phase transition from the NaCl-type (B1) structure to CsCl-type (B2) structure at the transition pressure of 313.2 GPa (without SOC) and 303.5 GPa (with SOC). The detailed structural changes during the phase transition were analyzed. The band structure shows that B1-ZrC is metallic. A pseudogap appears around the Fermi level of the total density of states (DOS) of the B1 phase of ZrC, which may contribute to its structural stability.

机译：我们在存在和不存在自旋轨道耦合（SOC）的情况下，通过基于密度泛函理论（DFT）的第一原理计算，从理论上研究了ZrC可能的压力诱导的结构相变，电子和弹性性质。计算表明，在313.2 GPa（无SOC）和303.5 GPa（有SOC）的转变压力下，存在从NaCl型（B1）结构到CsCl型（B2）结构的相变。分析了相变过程中的详细结构变化。能带结构表明B1-ZrC是金属的。伪间隙出现在ZrC B1相总态密度（DOS）的费米能级附近，这可能有助于其结构稳定性。

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《Physica, B. Condensed Matter》 |2011年第14期|共5页
作者
Lv Z.; Hu H.; Wu C.; Cui S.; Zhang G.; Feng W.;
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正文语种 eng
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Electronic properties; FP-LAPW; Phase transitions; Spinorbit coupling;

机译：电子特性;FP-LAPW;相变;自旋轨道耦合;

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First-principles study of structural stability, electronic and elastic properties of ZrC compounds

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