WenFang LiuW. Liu scite author profile

WenFang LiuW. Liu

2Publications

4Citation Statements Received

53Citation Statements Given

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Sichuan University

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High-pressure phase transition and thermodynamic properties of MgSe: Ab initio study

Liu

Gao

2009

Can. J. Phys.

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The transition phase of MgSe from a rock salt structure (B1) to a cesium chloride structure(B2) is investigated by ab initio calculations. The thermodynamic properties of the B1 and B2 structures are obtained through the quasi-harmonic Debye model. Moreover, the dependences of the relative volume V/V0 on the pressure P, the Debye temperature Θ, and heat capacity CV on the pressure P, as well as the heat capacity CV on the temperature T are estimated.

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The first-order structural phase transition of YSb

Fu¹,

Liu²,

Gao³

2010

Can. J. Phys.

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The high-pressure induced phase transition of YSb has been studied using the density functional theory method within the generalized gradient approximation. It was found that the first-order structural phase transition began to occur at 30.8 GPa, agreeing well with available experiments and theoretical calculations. In this phase transition, we do not find changes in the heat capacity and thermal expansion coefficients at lower and higher temperature, but the transition pressures decrease with temperature. The bulk modulus and Debye temperature decrease with increasing temperature, while they increase with increasing pressure. Also, the density of states and band structure of these two compounds with B1 and B2 structures have been presented and analyzed.PACS Nos: 64.70.Kb, 51.30.+I, 71.20._b Résumé : Nous avons étudié la transition de phase induite par haute pression dans le YSb, en utilisant la méthode de la fonctionnelle de densité dans le cadre de l'approximation du gradient généralisé. Nous trouvons que la transition de phase structurelle du premier ordre débute à 30.8 GPa, en accord avec les données expérimentales et théoriques disponibles. Dans cette transition de phase, nous n'observons pas de changement dans la capacité calorifique ni dans le coefficient d'expansion à basse et haute température, mais la pression de transition décroît avec la température. Le module d'élasticité et la température de Debye diminuent lorsque la température augmente, mais augmentent avec la pression. De plus, nous présentons et analysons la densité d'états et la structure de bande pour ces deux composés avec structure B1 et B2.[Traduit par la Rédaction]

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WenFang LiuW. Liu

High-pressure phase transition and thermodynamic properties of MgSe: Ab initio study

The first-order structural phase transition of YSb

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