Title :
The Lunar Prospector helix antenna
Author :
Loane, J.T. ; Tanner, D.R.
Author_Institution :
Missiles & Space, Lockheed-Martin, Sunnyvale, CA, USA
Abstract :
Fourier analysis can be used to model an infinitely long helix antenna embedded in a layered cylindrical geometry. The source is expanded in cylindrical harmonics over the spectrum (v, /spl beta/), in which each component has behavior exp(jv/spl phi/-j/spl beta/z) in cylindrical coordinates. Due to periodicity in /spl phi/, v is an integer. A current on a helical tape is expressed as a sum over all n of (v/sub n/, /spl beta//sub n/) current sheets, and so produces a sum of (v/sub n/, /spl beta//sub n/) field harmonics. A helix antenna radiating a circularly polarized broadside beam was designed for the Lunar Prospector mission. A metal core keeps the energy bound along the axis to lengthen the effective aperture. The axial attenuation rate was designed by computationally adjusting the imaginary part of /spl beta/, which departs from zero when one or more /spl beta//sub n/ harmonics radiates in the visible region.
Keywords :
Fourier analysis; antenna theory; helical antennas; space vehicles; 2.273 GHz; Fourier analysis; Lunar Prospector helix antenna; axial attenuation rate; circularly polarized broadside beam; cylindrical harmonics; effective aperture; field harmonics; helical tape; infinitely long helix antenna; layered cylindrical geometry; metal core; visible region; Antennas and propagation; Attenuation; Frequency; Geometry; Green´s function methods; Helical antennas; Magnetic cores; Missiles; Moon; Solid modeling;
Conference_Titel :
Antennas and Propagation Society International Symposium, 1997. IEEE., 1997 Digest
Conference_Location :
Montreal, Quebec, Canada
Print_ISBN :
0-7803-4178-3
DOI :
10.1109/APS.1997.631596
