Spectacular solar filament eruption, thousands of kilometers long, occurred at the Sun’s southeast quadrant. Solar X-Ray flux chart values reached almost M-class flare threshold. Huge filament collapsed after almost a week of activity and it resulted in a large C8.1 flare associated with Type II (estimated speed 515 km/s) and Type IV radio sweeps and CME.
Magnetic fields around southeastern quadrant are crackling with C-class solar flare and it could unleashed another M-class flare pretty soon. NOAA/SWPC forecasters estimate a 40% chances for M-class events during the next 24 hours. The most active sunspots are AR 1560 and AR 1563. New Sunspots 1561, 1562 ad 1563 were numbered on August 30 and old region 1545 from the previous rotation is now in Earth view.
There are no large coronal holes on the Earthside of the sun.
Waves of ionization
Extreme ultra-violet pulses are causing waves of ionization around the dayside of our planet. The extra ionization altered the propagation of very low-frequency radio signals around northern Europe. Readings from laboratory in Lofoten, Norway show the sudden ionospheric disturbances. And more ionization waves are about to come.
Early August filaments
SIDC/STCE report from August 31 brings filament eruption overview from first half of this month. Several multi-legged small filament pillars seen dancing around the solar north pole in early August. Dark and dynamic strands started to develop on August 3 in the northeast, and about half a dozen could be seen for a few days by SDO.
Around August 7, they start interacting with each other and with magnetic elements inside and outside the area they encircle. Normally, the solar rotation would guide them across the solar limb and out of sight, but being so close to the solar pole, the filaments and their frantic interactions were large enough to be seen from behind the north limb.
On August 11 the filaments erupted in a spectacular way. The magnificent event was nicely captured in this movie from SDO/AIA171 and AIA304 imagery.
Solar scientists are very interested if solar poles have already switched their magnetic polarities. As long as observations of the solar magnetic field have been available, it has been known that the sun flip-flops its polar magnetic field around the time of the solar cycle maximum. And we are now starting to experience peak of solar maximum.
Magnetic supersynoptic chart for 1974 to 2012
The filamentary strands visible early August seem to indicate there is still magnetic flux of opposite polarity very near to the north pole, implicating the reversal is not complete. However, the magnetic maps clearly indicate that the solar north pole is on the verge of permanently switching its magnetic polarity. The southern pole is lagging, perhaps by as much as a year. These reversals are yet another sign that solar cycle 24 is approaching its maximum.
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