Abstract
Multireceiver and multifrequency radar imaging were carried out with the 46.5 MHz MU radar in Japan (34.85°N and 136.10°E) to examine the aspect sensitivity of field-aligned plasma irregularities (FAIs) in the mid-latitude ionosphere E region. A radar beam was directed to geographic north and at 51° zenith angle, which was normal to the geomagnetic field line around 100 km height. Nineteen receivers and five carrier frequencies were used for radar imaging to retrieve the power distribution in the radar volume, and then the aspect angle along the geomagnetic field line was calculated according to the angular power distribution. Retrieval algorithms such as Fourier, Capon, and norm-constrained Capon (NC-Capon) were employed, in which the NC-Capon was applied to FAIs for the first time and found to be more suitable for the present study. The aspect angles estimated by the NC-Capon ranged between 0.1° and 0.4° mostly, and averaged around 0.2°, which were the same order to the previous measurements with radar interferometry (RI), made for equatorial electrojet irregularities and the lower mid-latitude sporadic E region. For comparison, RI-estimated aspect angles were also investigated and found to be close to that of NC-Capon, but distributed over a wider extent of angles.
Highlights
Received: 26 December1.Accepted: of sensitivity refractive irregularities in the atmosphere describes adescribes depend- a d: 26 December2021 17 January 2022 Aspect sensitivityAspect of refractive irregularities in the atmospherePublished: 27 January 2022 ence of radar echo intensity on angular direction
The radar echoes collected from the full array and five carrier frequencies were processed with the standard Capon method, and the range step was 5 m
Radar imaging and radar interferometry (RI) techniques were applied to the measurement of the aspect angle of field-aligned plasma irregularities (FAIs) in the mid-latitude ionospheric E region
Summary
To estimate the aspect angle of mid-latitude E region FAIs. CRI has been employed for study of aspect sensitivity in the lower and middle atmosphere [2,15,16]. A total of 25 receiving channels can be assigned, and frequency hopping of five carrier frequencies between radar pulses is available Such flexible capabilities of operation allow radar image processing in 1D range imaging and 2D angular imaging, and 3D spatial imaging. To this end, the retrieval methods used consistently, such as the Fourier, Capon, and norm-constrained Capon methods, were examined to find their suitability for the present study.
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