Add to ORKGAbstract—The ionosphere plays a role in radio propagation that varies strongly with frequency. At extremely low frequency (ELF: 3–3000 Hz) and very low frequency (VLF: 3–30 kHz), the ground and the ionosphere are good electrical conductors and form a spherical earth–ionosphere waveguide. Many giants of the electromagnetics (EMs) community studied ELF-VLF propagation in the earth–ionosphere waveguide, a topic which was critically important for long-range communication and navigation systems. James R. Wait was undoubtedly the most prolific publisher in this field, starting in the 1950s and continuing well into the 1990s. Although it is an old problem, there are new scientific and practical applications that rely on accurate modeling of ELF-VL...
pre-printAdvances in computing technologies in recent decades have provided a means of generating an...
In this paper, a full‐wave two‐dimensional Finite‐Difference‐Time‐Domain model is developed to evalu...
A three-dimensional Segmented Long Path (SLP) technique [1] is used to study both sub-ionospheric an...
Abstract—Wave propagation at the bottom of the electromag-netic spectrum (below 300 kHz) in the Eart...
Abstract ─ Finite-Difference Time-Domain (FDTD) modeling of electromagnetic wave propagation in the ...
A planetary crust with a low electric conductivity has a strong influence on extremely low frequency...
The finite-difference time-domain (FDTD) model of electromagnetic wave propagation in the Earth–iono...
iABSTRACT Very Low Frequency (VLF) radio waves with frequency in the range 3∼30 kHz propagate within...
In this thesis, we theoretically predict the normal characteristics of Very Low Frequency (3~30 kHz)...
In the extremely low frequency (ELF) range, the space between the ground and ionosphere forms a sphe...
pre-printWave propagation at the bottom of the electromagnetic spectrum (below300 kHz) in the Earth-...
pre-printThis paper reports the application of an efficient finite-difference time-domain (FDTD) alg...
[1] We compare radio atmospherics (sferics) detected by the World Wide Lightning Location Network (W...
A new approximate method for lightning-radiated extremely low-frequency (ELF) and very low-frequency...
For almost two decades, the finite-difference time-domain (FDTD) method has been applied towards mod...
pre-printAdvances in computing technologies in recent decades have provided a means of generating an...
In this paper, a full‐wave two‐dimensional Finite‐Difference‐Time‐Domain model is developed to evalu...
A three-dimensional Segmented Long Path (SLP) technique [1] is used to study both sub-ionospheric an...
Abstract—Wave propagation at the bottom of the electromag-netic spectrum (below 300 kHz) in the Eart...
Abstract ─ Finite-Difference Time-Domain (FDTD) modeling of electromagnetic wave propagation in the ...
A planetary crust with a low electric conductivity has a strong influence on extremely low frequency...
The finite-difference time-domain (FDTD) model of electromagnetic wave propagation in the Earth–iono...
iABSTRACT Very Low Frequency (VLF) radio waves with frequency in the range 3∼30 kHz propagate within...
In this thesis, we theoretically predict the normal characteristics of Very Low Frequency (3~30 kHz)...
In the extremely low frequency (ELF) range, the space between the ground and ionosphere forms a sphe...
pre-printWave propagation at the bottom of the electromagnetic spectrum (below300 kHz) in the Earth-...
pre-printThis paper reports the application of an efficient finite-difference time-domain (FDTD) alg...
[1] We compare radio atmospherics (sferics) detected by the World Wide Lightning Location Network (W...
A new approximate method for lightning-radiated extremely low-frequency (ELF) and very low-frequency...
For almost two decades, the finite-difference time-domain (FDTD) method has been applied towards mod...
pre-printAdvances in computing technologies in recent decades have provided a means of generating an...
In this paper, a full‐wave two‐dimensional Finite‐Difference‐Time‐Domain model is developed to evalu...
A three-dimensional Segmented Long Path (SLP) technique [1] is used to study both sub-ionospheric an...