On the feasibility of using an atmospheric discharge plasma as an RF antenna
Abstract
The plasma produced by a laser-guided, electric discharge in the atmosphere has been formed in the shape of a folded monopole antenna with a characteristic frequency of 112 MHz. This plasma antenna has been used to transmit and receive signals at 112 MHz. While the plasma remained conducting, the signal transmitted from, and received on, the plasma antenna was within -1 + or - 1 dB of that transmitted from and received on a 'standard' copper folded monopole antenna of the same size. During this time the signal transmitted from, and received on, the plasma antenna also remained approximately constant in amplitude (fluctuations approximately + or - 1 dB). This useful lifetime of the plasma antenna was varied from approximately 200 microsec to equal to or greater than 2000 microsec by changing the duration of the electric discharge sustaining the plasma columns. In these experiments, the noise from the plasma antenna was not distinguishable from that developed using a copper antenna, but in both cases the noise was much larger than the true thermal noise background.
- Publication:
-
IEEE Transactions on Antennas and Propagation
- Pub Date:
- February 1984
- DOI:
- Bibcode:
- 1984ITAP...32..141D
- Keywords:
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- Antenna Design;
- Atmospheric Lasers;
- Electric Discharges;
- Plasma Antennas;
- Radio Antennas;
- High Voltages;
- Radio Transmission;
- Communications and Radar