Arffa Aslam scite author profile

Radiation Effects and Defects in Solids

2014

Shear viscosity is examined throughout the entire range of strongly coupled states of two-dimensional complex (dusty) plasma liquids (CDPLs). We have employed equilibrium molecular dynamics (EMD) simulation to compute the shear viscosity coefficients of CDPLs. In the strongly coupled liquid region, the values of valid viscosity coefficient can be estimated only in order of magnitude. The variations in the valid viscosity coefficients with screening strength (κ) and Coulomb coupling strengths ( ) are observed. A systematic dependence of shear viscosity on κ is observed for an intermediate and higher . The investigations showed that the position of the minimum viscosity coefficient shifts towards higher as κ increases. The computational results for the entire range of liquid states of the strongly coupled dusty plasma obtained using the shear autocorrelation functions are in good agreement with the available simulation results and experimental data. It is shown that new simulations extended the range of plasma states ( , κ) used in our earlier simulation results for the existence of a finite minimum possible viscosity coefficient and it is also dependent on plasma states.

show abstract

Shear viscosity of two-dimensional strongly coupled complex (dusty) plasmas

IOP Conf. Ser.: Mater. Sci. Eng.

Sultana

et al. 2014

Molecular dynamics simulations of thermal conductivity in 2D complex Yukawa liquids

Sultana

IOP Conf. Ser.: Mater. Sci. Eng.

et al. 2014

Abstract. The thermal conductivity in strongly coupled complex dusty plasma liquids (SCCDPLs) has been investigated through an improved homogenous nonequilibrium molecular simulation (HNEMS) method, for the first time. The HNEMS method has been employed for two-dimensional (2D) Yukawa systems in a canonical ensemble. The thermal conductivities with suitable normalizations (plasma and Einstein frequencies), in the value of low force field strength, have been computed for a wide range of plasma state points of Coulomb coupling (Γ) and screening strength (κ). The new simulation results are found to obey the simple analytical temperature scaling law. The present HNEMS results are in generally with parts of earlier HNEMS, equilibrium molecular dynamics (EMD) and experimental data in the literature for the 2D and there-dimensional (3D) SCCDPLs. It is shown that the HNEMS method can be used to estimate the thermal conductivity very effectively and to understand the fundamental behaviours in 2D Yukawa systems.

show abstract

Thermal conductivity measurements of 2D complex liquids using nonequilibrium molecular dynamics simulations

Sultana

et al. 2014