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Lecturer: Dr Ruth Bamford (RAL)
Date: 2009-03-19 10:30
Place: Aniara

The Physics behind the Mini-Magnetospheric Shield for spacecraft protection

Dr Ruth Bamford (McCrea)
Space Plasmas Group
Space Science and Technology Dept
Rutherford Appleton Laboratory
Chilton, Didicot
U.K.

Abstract
Energetic ions in the solar wind plasma are a known hazard to both spacecraft electronics and to astronauts health. Of primary concern is the exposure to keV--MeV protons on manned space flights to the Moon and Mars that extend over long periods of time.
Attempts to protect the spacecraft include active shields that are reminiscent of Star Trek "deflector" shields. Here we describe a new experiment to test the shielding concept of a dipole-like magnetic field and plasma, surrounding the spacecraft forming a mini magnetosphere. Initial laboratory experiments have been conducted to determine the effectiveness of a magnetized plasma barrier to be able to expel an impacting, low beta, supersonic flowing energetic plasma representing the Solar Wind. Optical and Langmuir probe data of the plasma density, the plasma flow velocity, and the intensity of the dipole field clearly show the creation of a narrow transport barrier region and diamagnetic cavity
virtually devoid of energetic plasma particles. This demonstrates the potential viability of being able to create a small "hole" in a Solar Wind plasma, of the order of the ion Larmor orbit width, in which an inhabited spacecraft could reside in relative safety.
The experimental results have been quantitatively compared to a 3D particle-in-cell 'hybrid' code simulation that uses kinetic ions and fluid electrons, showing good qualitative agreement and excellent quantitative agreement. Together the results demonstrate the pivotal role of particle kinetics in determining generic plasma transport barriers. [1]

[1] R Bamford et al., "The interaction of a flowing plasma with a dipole magnetic field: measurements and modelling of a diamagnetic cavity relevant to spacecraft protection." 2008 Plasma Phys. Control. Fusion 50 124025 (11pp) doi: 10.1088/0741-3335/50/12/124025

The presentation [7MB PDF]

Created 2009-02-18 08:46:03 by Mats Holmström
Last changed 2009-03-25 11:48:33 by Mats Holmström