Abstract:
The paper describes briefly the method of recording the strength of long-wave radio signals used at the Bureau of Standards and gives some of the results obtained. The cu...Show MoreMetadata
Abstract:
The paper describes briefly the method of recording the strength of long-wave radio signals used at the Bureau of Standards and gives some of the results obtained. The curves shown indicate the great variability of the wave propagation both in regard to strength and the angle of incidence of the downcomning wave. This variability appears to be greater for transmission distances below 1000 km than for greater distances. An apparent connection is shown in certain cases between the night signal variations and magnetic storms. The observations seem to indicate that the downcoming waves are reflected (or refracted) from rapidly changing masses of ionized gas.
Published in: Proceedings of the Institute of Radio Engineers ( Volume: 17, Issue: 7, July 1929)
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Signal Intensity ,
- Daylight ,
- Wireless Transmission ,
- Night Work ,
- Automatic Recording ,
- Geomagnetic Storms ,
- Bureau Of Standards ,
- Volume Change ,
- Field Strength ,
- Differences In Length ,
- Phase Difference ,
- Linearly Polarized ,
- Sunrise ,
- Vertical Component ,
- Surface Waves ,
- Horizontal Components ,
- Wave Phase ,
- Middle Of The Day ,
- Loop Current
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Signal Intensity ,
- Daylight ,
- Wireless Transmission ,
- Night Work ,
- Automatic Recording ,
- Geomagnetic Storms ,
- Bureau Of Standards ,
- Volume Change ,
- Field Strength ,
- Differences In Length ,
- Phase Difference ,
- Linearly Polarized ,
- Sunrise ,
- Vertical Component ,
- Surface Waves ,
- Horizontal Components ,
- Wave Phase ,
- Middle Of The Day ,
- Loop Current
