Citation
Abstract
Using a Cassegrainian geometry, the 64-meter antenna with its distorted paraboloidal reflecting surface can be forced to produce a uniform phase wavefront by a pathlength compensating subreflector. First, the computed distortion vectors at the joints or nodes of the main reflector structure supporting the surface panels are best fitted to a paraboloid, Second, the resuiting residual distortion errors are used to determine a compensating subreflector surface by ray tracing using geometric optics principles, Third, the totally corrected subreflector surface is defined by the normal directions and distances to the surface of the original symmetric hyperboloid for the purpose of evaluation. Finally, contour maps of distortions of the paraboloid reflector and the compensating subreflector are presented. A field-measured check of the subreflector in focused position as computed by the described methodology is also presented for the antenna position at horizon look with the geometry at 45 degrees elevation.
Details
- Volume
- 42-75
- Published
- November 15, 1983
- Pages
- 65–78
- File Size
- 797.0 KB