Space Weather Forecast Headline: Chance of Strong x-ray flares. Chance of solar radiation storms.

Analysis of Space Weather Activity over past 24 hours

Solar Activity: Solar activity has been High, with numerous low level Moderate flares, peaking at 05/0436UTC from the largest and most complex region on the Sun in the northwest quadrant.

There are up to nine regions on the facing side of the Sun. The aforementioned region remains by far the largest, most magnetically complex and most active, although there are some tentative signs towards a simpler magnetic classification developing as the region matures. However, some mixing of magnetic polarities is still present, indicating a Strong flare may still be produced. Other regions of interest are a moderately sized region in the southeast, which saw continued growth in its leading penumbral spot in the period, and a region in the southwest which despite its small size and simple magnetic complexity produced one of the Moderate class flares of the period and a faint Coronal Mass Ejection (CME).

This CME was observed in coronagraph imagery and appears to be moving south and may miss Earth, but due to the source location in the southwest quadrant analysis has been undertaken and modelling is currently ongoing. Another CME was seen in imagery, in association with an Moderate flare at 05/2217 UTC from the site of a previous region approaching the southwest limb. Most of the material appears to have been reabsorbed, but once adequate coronagraph imagery is available analysis will be undertaken if a CME was produced.

Solar Wind / Geomagnetic Activity: Solar winds showed declining CME influence, combined with a solar wind enhancement likely associated with a minor coronal hole feature.

The 24-hour period started with Slightly Elevated winds around 470 km/s but gradually increased to become generally Elevated 560-590 km/s, occasionally touching Strong levels with speeds around 610-630 km/s. The strength of the solar winds magnetic field was initially Weak but quickly increased to become Strong, then gradually declined to end the day at Weak levels. Whilst the strength of the solar winds magnetic field was Strong the important north-south component became Strongly and protractedly southward. This resulted in the peak geomagnetic activity of the period. From 05/0530 UTC the north-south component changed to become predominantly northward and quickly declined to become Weak.

The net result of the above solar wind measures was Active to Minor Geomagnetic storm levels at first, then from 05/0900 UTC activity decreased to become Quiet to Unsettled.

Energetic Particles / Solar Radiation: No solar radiation storms were observed, despite large x-ray flares.

Four-Day Space Weather Forecast Summary

Solar Activity: Further Moderate flares are Expected, with a Chance of isolated Strong flares. Whilst the largest and complex region in the northwest remains the most likely source of significant flares, other smaller and simpler regions also have the potential to contribute to flare activity.

Solar Wind / Geomagnetic Activity: Currently no significant Earth directed CME's are expected, although confirmation is awaited from modelling results regarding the CME's associated with the some of the Moderate flares. In addition, there is a slight chance of a weak glancing blow late on Day 2 or early Day 3 (7-8th) from a CME which left the Sun on 3rd Feb in association with a small filament eruption in the western hemisphere. 

Outside of any CME arrivals the current Elevated to occasionally Strong solar winds are expected to gradually wane through the period, becoming Slightly Elevated by Day 4 (9th Feb).

Overall Quiet to Unsettled geomagnetic activity is expected, with a chance of isolated Active intervals, these most likely late Day 2 into early Day 3 (7-8th Feb).

Energetic Particles / Solar Radiation: The risk of solar radiation storms and S-scale events rises slightly in the four days as the largest sunspot region moves ever-westward, however the magnitude of this rise has been damped slightly to account for changes in the sunspot group itself. There are no other significant contributors to this risk.