Title :
Wave impedance from atmospheric noise near 2 kHz
Author_Institution :
Westinghouse Electric Corporation, Georesearch Laboratory, Boulder, USA
Abstract :
Atmospheric radio-noise measurements near the upper end of the e.l.f. band often indicate absorption and interference effects which are not present over most of the e.l.f. and v.l.f. bands. One such phenomenon is the sharp peaking of the magnitude of the ratio of vertical E to horizontal H, i.e. of the wave impedance characterising propagation in the earth-ionosphere waveguide. This paper gives a brief qualitative description of this phenomenon, and shows that its basic features may be attributed to interference between two waveguide modes. In addition, the possibility of using swept-frequency impedance measurements to precisely locate isolated thunderstorms is discussed.
Keywords :
atmospheric electromagnetic wave propagation; electromagnetic wave interference; guided electromagnetic wave propagation; interference; noise; noise measurement; radiowave propagation; 2kHz; Earth-ionosphere waveguide; atmosphere radio noise measurements; interference; isolated thunderstorm location; radiowave propagation effects; swept frequency impedance measurements;
Journal_Title :
Electronics Letters
DOI :
10.1049/el:19710144
