A Computational Study: The Effect of Hypersonic Plasma Sheaths on Radar Cross Section for Over the Horizon Radars

Abstract

In this study radar cross sections were calculated for an axial symmetric 6-degree half angle blunted cone with a nose radius of 2.5 cm and length of 3.5 m including and excluding the effects of an atmospheric hypersonic plasma sheath for altitudes of 40 km, 60 km and 80 km and speeds of 5 km/s, 6 km/s and 7 km/s. LAURA, was used to determine the plasma characteristics for the hypersonic ight conditions using a 11-species 2-temperature chemical model. Runs were accomplished rst with a super-catalytic surface boundary condition without a turbulence model and then for some cases with an non-reactive surface boundary condition where a mentor-SST turbulence model was used. The resulting plasmas heath properties were used in a Finite Difference Time Domain code to calculate the cones radar cross section both with and without the effects of the plasma sheath. The largest increase in radar cross section (RCS) was found for the 60 km7km/s case with an increase of 3.84%. A possible small decrease in RCS was found for the 40 km altitude 5 km/s and 80km 7 km/s cases on the order of 0.1%

Document Details

Document Type

Technical Report

Publication Date

Feb 28, 2017

Accession Number

AD1055070

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