Landau derivative: Difference between revisions

In gas dynamics, the Landau derivative or fundamental derivative of gas dynamics, named after Lev Landau who introduced it in 1942,^[1][2] refers to a dimensionless physical quantity characterizing the curvature of the isentrope drawn on the specific volume versus pressure plane. Specifically, the Landau derivative is a second derivative of specific volume with respect to pressure. The derivative is denoted commonly using the symbol ${\displaystyle \mathrm{\Gamma }}$ or ${\displaystyle \alpha }$ and is defined by^[3][4][5]

$${\displaystyle \mathrm{\Gamma }=\frac{c^4}{2{\upsilon }^3}{\left(\frac{{\partial }^2\upsilon }{\partial p^2}\right)}_s}$$

where

• ${\displaystyle c}$ is the sound speed,
• ${\displaystyle \upsilon =1/\rho }$ is the specific volume,
• ${\displaystyle \rho }$ is the density,
• ${\displaystyle p}$ is the pressure, and
• ${\displaystyle s}$ is the specific entropy.

Alternate representations of ${\displaystyle \mathrm{\Gamma }}$ include

$${\displaystyle \begin{array}{cc}\mathrm{\Gamma }& =\frac{{\upsilon }^3}{2c^2}{\left(\frac{{\partial }^{2}p}{\partial {\upsilon }^2}\right)}_s=\frac{1}{c}{\left(\frac{\partial \rho c}{\partial \rho }\right)}_s=1+\frac{c}{\upsilon }{\left(\frac{\partial c}{\partial p}\right)}_s\\ & =1+\frac{c}{\upsilon }{\left(\frac{\partial c}{\partial p}\right)}_T+\frac{cT}{\upsilon c_p}{\left(\frac{\partial \upsilon }{\partial T}\right)}_p{\left(\frac{\partial c}{\partial T}\right)}_p.\end{array}}$$

For most common gases, ${\displaystyle \mathrm{\Gamma }>0}$, whereas abnormal substances such as the BZT fluids exhibit ${\displaystyle \mathrm{\Gamma }<0}$. In an isentropic process, the sound speed increases with pressure when ${\displaystyle \mathrm{\Gamma }>1}$; this is the case for ideal gases. Specifically for polytropic gases (ideal gas with constant specific heats), the Landau derivative is a constant and given by

$${\displaystyle \mathrm{\Gamma }=\frac{1}{2}(\gamma +1),}$$

where ${\displaystyle \gamma >1}$ is the specific heat ratio. Some non-ideal gases falls in the range ${\displaystyle 0<\mathrm{\Gamma }<1}$, for which the sound speed decreases with pressure during an isentropic transformation.

• Landau damping

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