The state and evolution of planets, brown dwarfs and neutron star crusts is determined by the properties of dense and compressed matter. Due to the inherent difficulties in modelling strongly coupled plasmas, however, current predictions of transport coefficients differ by orders of magnitude. Collective modes are a prominent feature, whose spectra may serve as an important tool to validate theoretical predictions for dense matter. With recent advances in free electron laser technology, X-rays with small enough bandwidth have become available, allowing the investigation of the low-frequency ion modes in dense matter. Here, we present numerical predictions for these ion modes and demonstrate significant changes to their strength and dispersi...
The investigation of electrostatic excitations and associated instabilities at the ionic timescale i...
The dielectric function of dense plasmas is treated within a many-particle linear response theory be...
submitted to Physical Review CWe study the impact of different Quark-Gluon Plasma expansion scenario...
The state and evolution of planets, brown dwarfs and neutron star crusts is determined by the proper...
Measurements of the microscopic response of warm dense matter have been demonstrated by multi-keV in...
Matter exists in the cores of planets and the crusts of neutron stars, as well as the inside of iner...
We perform nonadiabatic simulations of warm dense aluminum based on the electron-force field (EFF) v...
The influence of strong correlations on low frequency collective modes in a dusty plasma is investig...
We present a simplified model for the electron-ion energy relaxation in dense two-temperature system...
Warm dense matter is an area of the phase diagram between solids and classical plasmas, but poorly ...
Despite intense research, the properties of strongly coupled Coulomb systems have not yet been compl...
Despite intense research, the properties of strongly coupled Coulomb systems have not yet been compl...
Stellar modelling challenges the physicist to provide accurate data for a lot of processes in a wide...
We calculate the frequencies of collective modes of neutrons, protons, and electrons in the outer co...
The warm dense matter regime (WDM), defined by temperatures of a few electron volts and densities co...
The investigation of electrostatic excitations and associated instabilities at the ionic timescale i...
The dielectric function of dense plasmas is treated within a many-particle linear response theory be...
submitted to Physical Review CWe study the impact of different Quark-Gluon Plasma expansion scenario...
The state and evolution of planets, brown dwarfs and neutron star crusts is determined by the proper...
Measurements of the microscopic response of warm dense matter have been demonstrated by multi-keV in...
Matter exists in the cores of planets and the crusts of neutron stars, as well as the inside of iner...
We perform nonadiabatic simulations of warm dense aluminum based on the electron-force field (EFF) v...
The influence of strong correlations on low frequency collective modes in a dusty plasma is investig...
We present a simplified model for the electron-ion energy relaxation in dense two-temperature system...
Warm dense matter is an area of the phase diagram between solids and classical plasmas, but poorly ...
Despite intense research, the properties of strongly coupled Coulomb systems have not yet been compl...
Despite intense research, the properties of strongly coupled Coulomb systems have not yet been compl...
Stellar modelling challenges the physicist to provide accurate data for a lot of processes in a wide...
We calculate the frequencies of collective modes of neutrons, protons, and electrons in the outer co...
The warm dense matter regime (WDM), defined by temperatures of a few electron volts and densities co...
The investigation of electrostatic excitations and associated instabilities at the ionic timescale i...
The dielectric function of dense plasmas is treated within a many-particle linear response theory be...
submitted to Physical Review CWe study the impact of different Quark-Gluon Plasma expansion scenario...