The gas and ice giants in our solar system can be seen as a natural laboratory for the physics of highly compressed matter at temperatures up to thousands of kelvins. In turn, our understanding of their structure and evolution depends critically on our ability to model such matter. One key aspect is the miscibility of the elements in their interiors. Here, we demonstrate the feasibility of X-ray Thomson scattering to quantify the degree of species separation in a 1:1 carbon-hydrogen mixture at a pressure of ~150 GPa and a temperature of ~5000 K. Our measurements provide absolute values of the structure factor that encodes the microscopic arrangement of the particles. From these data, we find a lower limit of [Formula: see text]% o...
Spectrally resolved scattering of ultrafast K-a x-rays has provided experimental validation of the m...
We have measured carbon ionization balance in a multi-component plasma in the high-temperature, up t...
International audienceWe present experiments investigating dense carbon at pressures between 100 GPa...
The gas and ice giants in our solar system can be seen as a natural laboratory for the physics of hi...
We develop a new theoretical approach that demonstrates the abilities of elastic X-ray scattering to...
High energy density physics (HEDP) is an emerging field that seeks to investigate the properties of ...
The diversity of the electronic properties of carbon makes it of key interest to the material scienc...
The topic of this thesis is the experimental generation and characterization of warm dense matter, i...
Detailed measurements of the electron densities, temperatures, and ionization states of compressed C...
We present analytical expressions for the dynamic structure factor, or form factor S(k, omega), whic...
Models of Jupiter and Saturn postulate a central rock core surrounded by a fluid mixture of hydrogen...
This thesis presents the theoretical framework required to apply spectrally resolved x-ray Thomson ...
We present the first direct experimental test of the complex ion structure in liquid carbon at press...
Whilst the field of High Energy Density physics spans a history of more than a century, it lacks a r...
Constant-pressure, first-principles molecular dynamic simulations were used to investigate the behav...
Spectrally resolved scattering of ultrafast K-a x-rays has provided experimental validation of the m...
We have measured carbon ionization balance in a multi-component plasma in the high-temperature, up t...
International audienceWe present experiments investigating dense carbon at pressures between 100 GPa...
The gas and ice giants in our solar system can be seen as a natural laboratory for the physics of hi...
We develop a new theoretical approach that demonstrates the abilities of elastic X-ray scattering to...
High energy density physics (HEDP) is an emerging field that seeks to investigate the properties of ...
The diversity of the electronic properties of carbon makes it of key interest to the material scienc...
The topic of this thesis is the experimental generation and characterization of warm dense matter, i...
Detailed measurements of the electron densities, temperatures, and ionization states of compressed C...
We present analytical expressions for the dynamic structure factor, or form factor S(k, omega), whic...
Models of Jupiter and Saturn postulate a central rock core surrounded by a fluid mixture of hydrogen...
This thesis presents the theoretical framework required to apply spectrally resolved x-ray Thomson ...
We present the first direct experimental test of the complex ion structure in liquid carbon at press...
Whilst the field of High Energy Density physics spans a history of more than a century, it lacks a r...
Constant-pressure, first-principles molecular dynamic simulations were used to investigate the behav...
Spectrally resolved scattering of ultrafast K-a x-rays has provided experimental validation of the m...
We have measured carbon ionization balance in a multi-component plasma in the high-temperature, up t...
International audienceWe present experiments investigating dense carbon at pressures between 100 GPa...
Add to ORKG