Add to ORKGCurrent ionospheric models are very good at specifying regular diurnal and seasonal variations of the E and F regions of the ionosphere. Less is known about the behavior of the D region, although progress has recently been made with models such as the Data-Driven D-Region (DDDR). However, significant departures from modeled behaviors are observed even during solar minimum conditions, due to complex ionospheric weather effects arising from both solar activity above and terrestrial atmospheric perturbations below. The D-region perturbations directly affect VLF communications, and also affect daytime absorption of frequencies from LF through HF. Perturbations in the E and F regions affect HF propagation, and may impact transionospheric communi...
Nighttime ionospheric D region heights and electron densities are determined from an extensive set o...
Dispersive atmospherics (tweeks) observed during 2010 simultaneously at two low-latitude stations, A...
Nighttime ionospheric D-region parameters are found to be generally well-modeled by the traditional ...
Current ionospheric models are very good at specifying regular diurnal and seasonal variations of th...
The amplitude and phase of VLF/LF radio signals are sensitive to changes in electrical conductivity ...
A two-pronged study is under way to improve understanding of the D region response to space weather ...
Tweek atmospherics are ELF/VLF pulse signals with frequency dispersion characteristics generate from...
Very Low Frequencies (VLF) radio signals are constantly used for communication by navies because the...
Ground-based very low frequency (VLF) radio propagation in the Earth-ionosphere waveguide has enable...
Very low frequency (VLF) radio signals, used by the Navies for submarine communications, can be rece...
The use of VLF signals to monitor the changes that occur in the ionosphere resulting from solar vari...
The radio waves at the Very Low Frequency (VLF) from the VLF transmitters can propagate in the Earth...
Solar flares (SFs) and intense radiation can generate additional ionization in the Earth’s atmospher...
Modelling and forecasting of ionospheric parameters is very useful for different radio communication...
<p>The high power, broadband very low frequency (VLF, 3--30 kHz) and extremely low frequency (ELF, 3...
Nighttime ionospheric D region heights and electron densities are determined from an extensive set o...
Dispersive atmospherics (tweeks) observed during 2010 simultaneously at two low-latitude stations, A...
Nighttime ionospheric D-region parameters are found to be generally well-modeled by the traditional ...
Current ionospheric models are very good at specifying regular diurnal and seasonal variations of th...
The amplitude and phase of VLF/LF radio signals are sensitive to changes in electrical conductivity ...
A two-pronged study is under way to improve understanding of the D region response to space weather ...
Tweek atmospherics are ELF/VLF pulse signals with frequency dispersion characteristics generate from...
Very Low Frequencies (VLF) radio signals are constantly used for communication by navies because the...
Ground-based very low frequency (VLF) radio propagation in the Earth-ionosphere waveguide has enable...
Very low frequency (VLF) radio signals, used by the Navies for submarine communications, can be rece...
The use of VLF signals to monitor the changes that occur in the ionosphere resulting from solar vari...
The radio waves at the Very Low Frequency (VLF) from the VLF transmitters can propagate in the Earth...
Solar flares (SFs) and intense radiation can generate additional ionization in the Earth’s atmospher...
Modelling and forecasting of ionospheric parameters is very useful for different radio communication...
<p>The high power, broadband very low frequency (VLF, 3--30 kHz) and extremely low frequency (ELF, 3...
Nighttime ionospheric D region heights and electron densities are determined from an extensive set o...
Dispersive atmospherics (tweeks) observed during 2010 simultaneously at two low-latitude stations, A...
Nighttime ionospheric D-region parameters are found to be generally well-modeled by the traditional ...