Warm Dense Matter (WDM) lies at the intersection of condensed matter physics and
plasma physics. In particular, it is characterized by temperatures comparable to those of the
Fermi level (1,000 to 10,000 K) and densities on the order of those of solids. In this
state of matter, a thorough understanding of the phase diagram and transport properties, such as
electrical conductivity, is crucial for modeling the magnetospheres of rocky planets,
hydrodynamic instabilities encountered in inertial confinement fusion experiments,
or during giant impacts, such as the one believed to have formed the Moon from the collision between
Earth and Theia.
For several years now, the Laboratory for Matter under Extreme Conditions at CEA DAM Île-de-France developed
an experimental facility (Pulsed Plasma Chamber—EPP) dedicated to the study of WDM. Using
pulsed-power discharges with very high currents (20–500 kA), this experimental facility enables the investigation of
changes in the thermodynamic and transport properties of matter as it transitions from the solid state to
the plasma state over time scales of the order of hundreds of nanoseconds. Very recently, these experiments
have been carried out using an X-ray synchrotron source to evaluate the electronic state density of the plasmas encountered in the EPP experiments.
This PhD will focus on the study of thermodynamic and transport properties of a
binary iron-nickel alloy within a pressure-temperature range associated with giant impacts. To this end, experiments will be conducted both at the CEA DAM Île-de-France site and at a synchrotron facility in order to investigate the thermodynamic, optical, and transport properties of Fe-Ni. The experimental data collected will then be compared with quantum molecular dynamics simulations that provide information, in particular, on the electronic states observed during the experiments. Finally, new theoretical approaches, based on the experimental and numerical results, will need to be proposed in order to improve the modeling of this type of alloy in the WDM regime.