• First X-Class Major Solar Flare of Solar Cycle 25 Blacks Out HF on July 3

    From ARRL de WD1CKS@VERT/WLARB to QST on Wednesday, July 07, 2021 13:42:09
    07/07/2021

    A lot of radio amateurs may have been wondering, "Where did the bands go?" as the first X-class solar flare in 4 years blacked out HF propagation for a time on July 3.

    "Many American radio amateurs reported sudden HF propagation blackouts on Saturday morning, July 3, when solar active region 12838 produced an X1.5 major solar flare that reached maximum intensity at 1429 UTC, the first X-class solar flare of Solar Cycle 25 and the first since 2017," Frank Donovan, W3LPL, said. "HF propagation blackouts are caused when x-ray and extreme ultraviolet radiation from X-class solar flares strongly ionizes the absorbing D-region in the Earth's sun-facing dense lower ionosphere," he explained. Such a radio blackout occurs when a pulse of x-rays ionize the top layer of the atmosphere, the exosphere.

    In this instance, it caused what NOAA's Space Weather Prediction Center (SWPC[1]) calls an R3-level or "strong" radio blackout (on a scale[2] of R1 - R5). An R3 incident can cause a "wide-area blackout of HF radio communication [and] loss of radio contact for about an hour on sunlit side of Earth. Low-frequency navigation signals degraded for about an hour."

    Donovan said that X-class major solar flares are necessary consequences of steadily increasing Solar Cycle 25 activity. "95% of all X-class solar flares occur when the solar flux index is 90 or greater. The remaining 5% can occur any time during the solar cycle," he points out. "X1-class major solar flares typically degrade HF propagation for only an hour or two at mid and high latitudes, only on Earth's sunlit side."

    X-class major flares are measured on an open-ended scale. The strongest one ever recorded was an X28 flare in 2003, hundreds of times more powerful than the July 3 X1.5 solar flare. X10-class and stronger solar flares typically have effects that last for most of a day and affect the entire sunlit side of the Earth. Fortunately, X10-class solar flares occur only about once every 20 years or more.

    "Much more severe and long-lasting HF propagation degradations are often caused by the coronal mass ejections (CMEs) often associated with - but not caused by - major solar flares," Donovan explained. "HF propagation degradation caused by CMEs typically begins about 2 days after the effects of the associated solar flare, the duration of the delay depending on interactions between the CME and the solar wind."

    The CME associated with the July 3 X1.5 solar flare is likely to have little to no effect on HF propagation going forward, because the active region was very close to the western edge of the visible solar disk when the CME erupted. Region 12838 rotated off the visible disk on Sunday, July 4.

    Solar flares have no significant effect on VHF ionospheric propagation but can degrade satellite communications passing through the ionosphere. More frequent, less powerful M-class medium solar flares produce short-duration degradation at high latitudes. Very frequent, much weaker A-, B-, and C-class solar flares do not degrade HF propagation. - Thanks to Frank Donovan, W3LPLÿ


    [1] https://www.swpc.noaa.gov/sites/default/files/images/NOAAscales.pdf
    [2] https://www.swpc.noaa.gov/sites/default/files/images/NOAAscales.pdf

    ---
    þ Synchronet þ Whiskey Lover's Amateur Radio BBS