Physics:Anton-Schmidt equation of state

The Anton-Schmidt equation is an empirical equation of state for crystalline solids, e.g. for pure metals or intermetallic compounds.^[1] Quantum mechanical investigations of intermetallic compounds show that the dependency of the pressure under isotropic deformation can be described empirically by

${\displaystyle p(V)=-\beta {\left(\frac{V}{V_0}\right)}^n\ln \left(\frac{V}{V_0}\right)}$.

Integration of ${\displaystyle p(V)}$ leads to equation of the state for the total energy. The energy ${\displaystyle E}$ required to compress a solid to volume ${\displaystyle V}$ is

${\displaystyle E(V)=-{\displaystyle \underset{V}{\overset{\mathrm{\infty }}{\int }}}p(V^{\prime })d{V}^{\prime }}$

which gives

${\displaystyle E(V)=\frac{\beta V_0}{n+1}{\left(\frac{V}{V_0}\right)}^{n+1}[\ln \left(\frac{V}{V_0}\right)-\frac{1}{n+1}]-E_{\mathrm{\infty }}}$.

The fitting parameters ${\displaystyle \beta ,n}$ and ${\displaystyle V_0}$ are related to material properties, where

${\displaystyle \beta }$ is the bulk modulus ${\displaystyle K_0}$ at equilibrium volume ${\displaystyle V_0}$.

${\displaystyle n}$ correlates with the Grüneisen parameter ${\displaystyle n=-\frac{1}{6}-{\gamma }_G}$.^[2][3]

However, the fitting parameter ${\displaystyle E_{\mathrm{\infty }}}$ does not reproduce the total energy of the free atoms.^[4]

The total energy equation is used to determine elastic and thermal material constants in quantum chemical simulation packages.^[4][5]

• Murnaghan equation of state
• Rose–Vinet equation of state
• Birch–Murnaghan equation of state

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