Oceanic propagation measurements for beyond line-of-sight links at Q band

Abstract: This paper presents results from two experiments that were conducted to characterize propagation over the ocean at upper Q-band frequencies. Measurements of propagation loss versus path length were made off the Mid-Atlantic coast of the United States in February and November 2005. The results show that the propagation loss can be more than 100 dB less than the loss due to diffraction and refractive effects caused by a standard atmosphere. Comparison of the measurements with theoretical predictions suggests tha… Show more

“…TEMPER predicts electromagnetic wave propagation in the troposphere using a parabolic approximation to the Helmholtz wave equation and solves the resulting parabolic wave equation directly using a stable numerical technique known as the Fourier split-step algorithm [6]. TEMPER has been validated for frequencies up to Q band [7], [8]. Execution of TEMPER is performed by specifying the values of pertinent system parameters and by providing the program with a vertical profile of the modified index of refraction, M(h).…”

The Impact of Evaporative Ducting on Covert Communications

“…TEMPER predicts electromagnetic wave propagation in the troposphere using a parabolic approximation to the Helmholtz wave equation and solves the resulting parabolic wave equation directly using a stable numerical technique known as the Fourier split-step algorithm [6]. TEMPER has been validated for frequencies up to Q band [7], [8]. Execution of TEMPER is performed by specifying the values of pertinent system parameters and by providing the program with a vertical profile of the modified index of refraction, M(h).…”

The Impact of Evaporative Ducting on Covert Communications