Shock structure deformation in plasma jet caused by strong magnetic field

The shock structure deformation in a plasma jet caused by a strong magnetic field was studied using an optical method The plasma jet images in the enclosing vacuum chamber were taken with a digital single-lens reflex camera through a viewing window Since the relative values of the measured light intensity are known to have a strong correlation with the number density of excited atoms the vertical distribution of light intensity can be converted to a radial distribution of excited atom density using an Abel-inversion The results of this conversion with a magnetic field were compared in the present experiments with those without the presence of a field It is possible to obtain a smooth radial distribution of estimated number density using an approximate line The density along the centerline increases obviously with the magnetic field The minimal density point around the Mach disk was moved slightly upstream with the application of the field The density distribution inside of the jet boundary was changed considerably by the application of the strong field The jet boundary itself was not found to be affected significantly by the field although the boundary vas found to be slightly contracted to the center axis with application of the field It has been confirmed that the density distributions are mainly affected by the magnetic field at the corresponding location (C) 2010 Elsevier Ltd All rights reserved