- Author : Jianxun Zhao
- Publisher :
- Release : 2022
- ISBN :
- Pages : 0 pages
Fully Kinetic Particle in cell Simulations of Plasma surface dust Interactions for Lunar Exploration
Download or read book Fully Kinetic Particle in cell Simulations of Plasma surface dust Interactions for Lunar Exploration written by Jianxun Zhao and published by . This book was released on 2022 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: "The studies involving lunar surface explorations have drawn attentions in recent years. A better understanding of possible potential hazards to astronauts and electronic equipment has become a necessity for future lunar explorations. The lunar surface, lacking an atmosphere and global magnetic field therefore directly exposed to solar radiation and solar wind plasma, is electrically charged by the bombardment of solar wind plasma and emission/collection of photoelectrons. Additionally, lunar dust grains can also get charged and levitated from the surface under the influence of the electric field as well as gravity within the plasma sheath. Since the plasma sheath formed near the illuminated lunar surface is dominated by photoelectrons, it is usually referred to as 'photoelectron sheath'. In this research, we will focus on resolving the photoelectron sheath structure near lunar surface through numerical simulations. Firstly, we will introduce the fundamental assumptions of our analytic and simulation studies. We will present the derivation of a 1-D semi-analytic model to numerically obtain the quantities of interest as functions of the distance from surface within the photoelectron sheath. Secondly, we will present the numerical simulations with a fully kinetic Finite Difference (FD) Particle-in-Cell (PIC) code to solve the surface charging problem on lunar surface. In this study, we will consider both Maxwellian and Kappa distribution of solar wind electron velocities. Finally, we will show our current studies on the charged lunar dust lofting and transport under the influence of local electrostatic environment. We will consider both uncoupled and coupled method in the simulations. In uncoupled method, a steady state electric field is obtained through FD-PIC simulations and provided to simulate the charged dust transport, indicting that the charged dust transport does not influence the local electrostatic environment. Whereas in the coupled method, the electrostatic environment and the charged dust transport are simulated simultaneousness, which means the electrostatic environment and the dust transport influence each other during the simulations"--Abstract, page iii.