A vibrational model of transport properties of dense fluids assumes that solid-like oscillations
of atoms around their temporary equilibrium positions dominate the dynamical picture. The …

In dusty (complex) plasmas, containing mesoscopic charged grains, the grain–grain
interaction in many cases can be well described through a Yukawa potential. In this review …

Dusty plasmas represent a powerful platform to study the collective dynamics of strongly
coupled systems with important interdisciplinary connections to condensed matter physics …

We report the results of the second charged-particle transport coefficient code comparison
workshop, which was held in Livermore, California on 24–27 July 2023. This workshop …

Properties of two-dimensional strongly coupled Yukawa systems are explored through
molecular dynamics simulations. An effective coupling coefficient Γ* for the liquid phase is …

Ionic transport coefficients for dense plasmas have been numerically computed using an
effective Boltzmann approach. We have developed a simplified effective potential approach …

The reverse nonequilibrium molecular dynamics method for thermal conductivities is
adapted to the investigation of molecular fluids. The method generates a heat flux through …

Laser cooling of a neutral plasma is a challenging task because of the high temperatures
typically associated with the plasma state. By using an ultracold neutral plasma created by …

A vibrational model of heat transfer in simple liquids with soft pairwise interatomic
interactions is discussed. A general expression is derived, which involves an averaging over …

The viscoelasticity of two-dimensional liquids is quantified in an experiment using a dusty
plasma. An experimental method is demonstrated for measuring the wave-number …