Investigation of choke-ring structures for ground-penetrating radar
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For common GPR antennas such as dipoles, shielding, such as with a metallic cavity, is an attractive way to isolate the antenna from the above-ground environment and reduce unwanted coupling and emissions into the air. However, currents induced on the shield by the antenna can travel around the shield and re-radiate, creating unwanted signal paths and offsetting these benefits. This work establishes the viability of choke-ring structures in reducing these surface currents through shaping of the radiation pattern and demonstrates that good bandwidth and time-domain performance may be achieved through the use of resistive, rather than perfectly metallic, surfaces.
[1] S.N. Makarov,et al. A Low-Multipath Wideband GPS Antenna With Cutoff or Non-Cutoff Corrugated Ground Plane , 2009, IEEE Transactions on Antennas and Propagation.
[2] Zhinong Ying,et al. Improvements of dipole, helix, spiral, microstrip patch and aperture antennas with ground planes by using corrugated soft surfaces , 1996 .
[3] D. Sievenpiper,et al. High-impedance electromagnetic surfaces with a forbidden frequency band , 1999 .