Relativistic equation of state using a screened-hydrogenic model

We present a self-consistent model based on a non-relativistic screened-hydrogenic model with l-splitting to calculate the relativistic equation of state of matter in local thermodynamic equilibrium. Arbitrary degeneracy is allowed for the relativistic free electrons. Ion properties and cold curve are determined using the quotidian equation of state multiphase equation of state. The whole model is fast, robust, and reasonably accurate over a wide range of temperatures and densities.

Automated summary

We propose a self-consistent model based on a non-relativistic screened-hydrogenic model with l-splitting to calculate the relativistic equation of state of matter in local thermodynamic equilibrium. Arbitrary degeneracy is allowed for the relativistic free electrons. Ion properties and cold curve are determined using the quotidian equation of state multiphase equation of state. The whole model is fast, robust, and reasonably accurate over a wide range of temperatures and densities.