Analysis of the August 2017 Eclipse’s Effect on Radio Wave Propagation Employing a Raytrace Algorithm

TitleAnalysis of the August 2017 Eclipse’s Effect on Radio Wave Propagation Employing a Raytrace Algorithm
Publication TypeConference Paper
Year of Publication2017
AuthorsMoses, ML, Burujupali, S, Brosie, K, Dixit, S, Earle, GD, Kordella, L, Frissell, NA, Chitale, C
Conference NameNSF CEDAR (Coupling, Energetics, and Dynamics of Atmospheric Regions)
Date Published06/2017
Conference LocationKeystone, CO
Abstract

The upcoming total solar eclipse over the continental United States on August 21 offers an unique opportunity to study the dependence of the ionospheric density and morphology on incident solar radiation. There are significant differences between the conditions during a solar eclipse and the conditions normally experienced at sunset and sunrise, including the west-to-east motion of the eclipse terminator, the duration of the event, the solar zenith angle, and the continued visibility of the corona. Taken together, these factors imply that unique ionospheric responses may be witnessed during eclipses, as measured by changes in radio frequency (RF) propagation. High Frequency (HF) propagation varies greatly depending on ionospheric conditions. Hence, our analysis will include data collected during the eclipse by several HF systems shown in Figure 1 including SuperDARN, temporary radio transceiver sites, and amateur radio networks such as the Reverse Beacon Network (RBN) and Weak Signal Propagation Reporter Network (WSPRNet). The data analysis will be guided by raytrace models of HF propagation through an eclipsed ionosphere employing the HF propagation toolbox, PHaRLAP (created by Dr. Manuel Cervera).

Refereed DesignationNon-Refereed
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