Title :
Superspheroids: a new family of radome shapes
Author_Institution :
Dept. of Res., Naval Air Warfare Center Weapons Div., China Lake, CA, USA
fDate :
2/1/1995 12:00:00 AM
Abstract :
We use the arc described by the two-dimensional superquadric equation (taking its exponent ν to be any positive real number) in the first quadrant only and revolve it about its major axis to obtain a body of revolution family of geometric shapes called superspheroids. For certain values of length and radius and assuming that 1<ν<2, we have determined new shapes that are appropriate for high speed missile radomes. We have found that the superspheroid with optimized exponent value ν=1.381 can almost exactly reproduce the traditional Von Karman radome geometry. Incidence angle maps and geometric properties have been determined for this superspheroidal family. We have used a ray tracing analysis to obtain boresight error induced by this family of shapes as a function of gimbal angle. The superspheroids are mathematically simple, can approximate most of the traditional radome geometries quite well, and are exceptionally easy to either program or use analytically
Keywords :
antenna theory; equations; missiles; radomes; ray tracing; Von Karman radome geometry; body of revolution; boresight error; geometric properties; geometric shapes; gimbal angle; high speed missile radomes; incidence angle maps; length; optimized exponent value; radius; radome shapes; ray tracing analysis; superspheroids; two-dimensional superquadric equation; Aperture antennas; Electromagnetic analysis; Electromagnetic scattering; Equations; Geometry; Missiles; Physics; Ray tracing; Reflector antennas; Shape;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
