Title :
Spherical Near-Field Scanning With Higher-Order Probes
Author :
Hansen, Thorkild B.
Author_Institution :
Seknion Inc., Boston, MA, USA
Abstract :
A general method for higher-order probe correction in spherical scanning is obtained from a renormalized least-squares approach. The renormalization causes the normal matrix of the least-squares problem to closely resemble the identity matrix when most of the energy of the probe pattern resides in the first-order modes. The normal equation can be solved either with a linear iterative solver (leading to an iterative scheme), or with a Neumann series (leading to a direct scheme). The computation scheme can handle non-symmetric probes, requires only the output of two independent ports of a dual-polarized probe, and works for both φ and θ scans. The probe can be characterized either by a complex dipole model or by a standard spherical-wave representation. The theory is validated with experimental data.
Keywords :
antenna theory; dipole antennas; iterative methods; least squares approximations; matrix algebra; polarisation; Neumann series; complex dipole model; dual polarized probe; first order mode; higher order probe correction; identity matrix; linear iterative solver; nonsymmetric probe; renormalized least square approach; spherical near field scanning; spherical scanning; standard spherical wave representation; Antenna measurements; Equations; Fourier series; Hafnium; Iterative methods; Mathematical model; Probes; Antenna measurements; antenna theory;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2011.2164217
