STCE Newsletter

2 Feb 2026 - 8 Feb 2026

Published by the STCE - this issue : 13 Feb 2026.
The Solar-Terrestrial Centre of Excellence (STCE) is a collaborative network of the Belgian Institute for Space Aeronomy, the Royal Observatory of Belgium and the Royal Meteorological Institute of Belgium.
Archive of the newsletters Subscribe to this newsletter by mail
1. It's all flares on the menu!
2. 5x10 min Space Weather research
3. Review of space weather
4. International Sunspot Number by SILSO
5. Noticeable Solar Events
6. Geomagnetic Observations in Belgium
7. PROBA2 Observations (2 Feb 2026 - 8 Feb 2026)
8. The SIDC Space Weather Briefing
9. Review of Ionospheric Activity
10. STCE training courses, lectures and workshops

It's all flares on the menu!


The passage of NOAA 14366 over the solar disk has not gone unnoticed, as extensively discussed in these STCE newsflashes at https://www.stce.be/news/803/welcome.html This can best be seen in the GOES soft-x-ray curve underneath (LASP/University of Colorado - https://lasp.colorado.edu/space-weather-portal/now ). As soon as this sunspot group started to develop on 31 January, there was also a strong increase in the recorded soft x-ray flux as well as in the number of produced solar flares. So far, this active region has produced 66 M- and 6 X-class flares (see "flare classes" at https://www.stce.be/educational/classification#xray ). Most of this flare activity took place between 1 and 5 February, with a little burp on 8 and 9 February. In fact, the very large majority of the M- and X-class peaks in the graph can be attributed to enhanced activity in NOAA 14366.




It's no surprize then that this sunspot group has been the most prolific M- and X-class flare producer so far this solar cycle (SC25). Though it has not produced as many X-class flares as the famous active region NOAA 13664 in May 2024, it is on top for the other flare statistics. The table underneath shows the Top 36 of active regions (NOAA number) that have produced the most M- and X-class flares. Also the solar cycle (SC) to which they belong has been mentioned. Note that all the flare intensities prior to SC25 have been upscaled by a factor 1.43 to allow comparison of the flare numbers on equal footing with the current GOES measurements (see the NOAA/SWPC note https://ngdc.noaa.gov/stp/satellite/goes/doc/GOES_XRS_readme.pdf ). Following an analysis of the flaring statistics as recorded by the GOES family during the last half century, NOAA 14366 occupies already the third spot! Only the famous NOAA 5395 in March 1989 and NOAA 3804 in July 1982 were able to produce more M- and X-class flares.




The strongest flare that NOAA 14366 has produced so far was the X8.1 late on 1 February. This is the third strongest so far this solar cycle, after the X9.0 flare produced by NOAA 13842 on 3 October 2024 (STCE newsitem at https://www.stce.be/news/727/welcome.html ) and the X8.7 by NOAA 13664 on 14 May 2024 (STCE newsitem at https://www.stce.be/news/700/welcome.html ). The compilation underneath shows this X8.1 flare as observed by 4 different spacecraft in the extreme ultraviolet (different wavelengths and zooms): SDO/AIA (upper left), GOES/SUVI (upper right), STEREO-A/EUVI (lower left) and Solar Orbiter/EUI (lower right). The latter two show the location of the eruption more to the east limb (left") because STEREO-A and Solar Orbiter are leading the Earth by respectively 51 and 15 degrees. The clips are in the online version of this newsitem at https://www.stce.be/news/805/welcome.html



5x10 min Space Weather research


On February 6, the finalists of the 'Battle of the Scientists' explained their space weather research to an audience of children between 6 and 12 years: 500 onsite and 2100 online.
The energy release was in the order of an X-flare, accompanied by an Earth-directed CME of olympic speed and a major proton storm.


Get ready for these brilliant researchers (Dutch):


Cis Verbeeck (Koninklijke Sterrenwacht van Belgiƫ): Hoe voorspel je een super-zonnestorm? - https://youtu.be/k2mQgDVWmLM
Esmee Tackx en Stefan De Raedemaeker (KU Leuven): Marsrover Marcel en de wraak van de zon - https://youtu.be/SU0zwjMq6W4
Dries Van Baelen (Defensie): Hoe bel je een soldaat in het midden van de woestijn? - https://youtu.be/1oCgrrf_XGs
Myrthe Flossie (KU Leuven): Help! Zonnedeeltjes vallen astronauten aan - https://youtu.be/qoIpGnIC6zA
Andreas Debrabandere (Koninklijke Sterrenwacht van Belgiƫ): Een eclips bouwen om ruimteweer te zien - https://youtu.be/-yhCZPh0ScI




Enjoy!


The Wetenschapsbattle 2026 is an organisation of 'The floor is yours' in collaboration with the Solar-Terrestrial Centre of Excellence, with the support of Redwire, KU Leuven and the Research Foundation - Flanders (FWO): https://wetenschapsbattle.be/editie2026/

Review of space weather


Solar Active Regions (ARs) and flares

This week, SIDC Sunspot Group 740 ( NOAA 4345) to SIDC Sunspot Group 790 (NOAA 4373) were observed from Earth. The most active of these groups was SIDC 784 (NOAA 4366), producing most of the flaring activity. Six (6) X-class flares (all from SIDC 784) and 49 M-class flares were observed by the GOES satellite. The largest was an X8.1. SIDC Flare 6808 peaked on February 01 at 23:57 UTC and originated from SIDC Sunspot Group 784. This region had a beta-gamma-delta magnetic field configuration, it increased in size until 4 February. While crossing the central meridian from 4 February, the sunspot group stopped producing X-class flares.


Coronal mass ejections (CME)

A partial halo CME was observed at 00:48 UTC on February 2 by LASCO C2, associated with the X8.1 flare peaking at 23:57 UTC on February 1. This CME was accompanied by a large EUV wave. The CME had an angular width of about 150 degrees, directed to the northeast, with an Earth directed component and an estimated speed of 700 km/s.


Coronal Holes

Three negative polarity coronal holes could be allocated in solar EUV-images: two equatorial (SIDC CH 136 and 149), and one in the northern hemisphere at high latitudes (SIDC CH 142).


Proton flux levels

The greater than 10 MeV proton flux remained below the 10 pfu threshold.


Electron fluxes at GEO

The greater than 2 MeV electron flux measured by GOES 19 was mostly above the threshold until 5 February. After this date, the flux went below the threshold for most of the remaining week.


Solar wind at L1

The Earth was inside a slow solar wind stream at the beginning of the week, with speeds around 400 km/s and a magnetic field around 5 nT. On 4 February at 14:20 UT, a shock driven by the partial halo CME from 2 February, arrived. The magnetic field of the solar wind jumped from 11 to 22 nT, its speed increased instantaneously from 320 to 400 km/s. It took the interplanetary CME 1 day to pass the L1 point. After its passage, the high speed stream from SIDC CH 136 and 149 arrived. It reached speeds up to 700 km/s. By the end of the week, the wind had slowed down.


Geomagnetism

The week was mostly quiet to unsettled both locally and globally (K_Bel and K_p up to 3), except when the ICME corresponding to the 2 February partial halo CME arrived triggering a minor storm (K_Bel and K_p up to 5) in the first half of 5 February. The high speed stream following the ICME triggered active conditions (Kp and K_Bel up to 4) on 7 February.

International Sunspot Number by SILSO




The daily Estimated International Sunspot Number (EISN, red curve with shaded error) derived by a simplified method from real-time data from the worldwide SILSO network. It extends the official Sunspot Number from the full processing of the preceding month (green line), a few days more than one solar rotation. The horizontal blue line shows the current monthly average. The yellow dots give the number of stations that provided valid data. Valid data are used to calculate the EISN. The triangle gives the number of stations providing data. When a triangle and a yellow dot coincide, it means that all the data is used to calculate the EISN of that day.

Noticeable Solar Events


DAY BEGIN MAX END LOC XRAY OP 10CM TYPE Cat NOAA
02 0031 0036 0040 X2.8 10 4366
02 0235 0242 0244 M4.4 10 4366
02 0245 0251 0259 M5.2 10 4366
02 0344 0346 0349 M1.9 10 4366
02 0439 0447 0456 M3.0 10 4366
02 0510 0516 0519 M1.6 VI/2 10 4366
02 0519 0527 0535 M2.3 VI/2 10 4366
02 0739 0814 0840 N14E30 X1.6 2 10 4366
02 1017 1024 1034 M1.9 10 4366
02 1115 1124 1130 M6.7 10 4366
02 1332 1339 1343 M1.1 10 4366
02 1449 1501 1514 N13E25 M4.0 1 10 4366
02 1703 1710 1730 M2.3 CTM/2 10 4366
02 1826 1829 1831 M2.3 10 4366
02 1941 2005 2032 M2.9 III/1
02 2052 2108 2117 M3.3 10 4366
02 2321 2327 2331 M2.5 10 4366
03 0131 0149 0221 N12E23 M1.5 1F CTM/2 10 4366
03 0413 0422 0435 N12E20 M1.7 1F 10 4366
03 0545 0555 0603 N12E16 M2.6 SN 10 4366
03 0643 0701 0719 N12E16 M7.2 1N VI/2 10 4366
03 0743 0747 0752 N12E15 M3.6 1 10 4366
03 0941 1012 1028 N14E14 M3.6 1F 10 4366
03 1358 1408 1418 X1.5 10 4366
03 1445 1456 1503 M7.2 III/1 10 4366
03 1629 1636 1640 M2.1 10 4366
03 1753 1808 1822 M2.5 10 4366
03 2231 2250 2256 M2.0 10 4366
03 2256 2309 2320 N14E12 M3.4 SF III/2 10 4366
04 0102 0110 0116 N12E5 M1.2 1F 10 4366
04 0126 0139 0145 N12E6 M1.4 SF 10 4366
04 0232 0239 0255 N12E6 M4.9 S 10 4366
04 0348 0355 0402 N13E6 M2.1 SF 10 4366
04 0912 0920 0923 M1.8 10 4366
04 1051 1055 1058 M1.5 10 4366
04 1131 1135 1141 M1.1 10 4366
04 1202 1213 1218 X4.2 CTM/2
04 1525 1534 1555 N12W4 M1.8 2B 10 4366
05 0355 0421 0425 N15W9 M2.5 SF 10 4366
05 0425 0436 0441 N15W9 M2.7 S 10 4366
05 0613 0619 0627 N15W9 M1.3 S III/2 10 4366
05 0819 0833 0838 N15W9 M1.0 SF 10 4366
05 0838 0846 0850 N15W9 M1.2 SF 10 4366
05 1259 1304 1309 M1.6 10 4366
05 1508 1513 1520 S18W16 M1.8 1N III/2 9 4362
05 1620 1630 1646 M1.6 III/2 10 4366
05 1731 1741 1756 M1.5 10 4366
05 1928 1934 1938 S17W18 M2.2 1N V/3VI/1 9 4362
05 2210 2217 2220 S22W73 M1.1 1N CTM/2 4372
08 1113 1118 1121 N18W48 M1.8 SF 10 4366
08 1132 1143 1159 M1.7 10 4366
08 1346 1353 1357 M2.7 10 4366


LOC: approximate heliographic location TYPE: radio burst type
XRAY: X-ray flare class Cat: Catania sunspot group number
OP: optical flare class NOAA: NOAA active region number
10CM: peak 10 cm radio flux

Geomagnetic Observations in Belgium




Local K-type magnetic activity index for Belgium based on data from Dourbes (DOU) and Manhay (MAB). Comparing the data from both measurement stations allows to reliably remove outliers from the magnetic data. At the same time the operational service availability is improved: whenever data from one observatory is not available, the single-station index obtained from the other can be used as a fallback system.
Both the two-station index and the single station indices are available here: http://ionosphere.meteo.be/geomagnetism/K_BEL/

PROBA2 Observations (2 Feb 2026 - 8 Feb 2026)


Solar Activity


Solar flare activity fluctuated from low to very high during the week.
In order to view the activity of this week in more detail, we suggest to go to the following website from which all the daily (normal and difference) movies can be accessed: https://proba2.oma.be/ssa
This page also lists the recorded flaring events.


A weekly overview movie (SWAP week 828) can be found here: https://proba2.sidc.be/swap/data/mpg/movies/weekly_movies/weekly_movie_2026_02_02.mp4.


Details about some of this week's events can be found further below.


If any of the linked movies are unavailable they can be found in the P2SC movie repository here: https://proba2.oma.be/swap/data/mpg/movies/.


Monday February 02






This week, active region NOAA 4366 (SIDC 784) was very dynamic, producing 4 X-flares and numerous M-flares. The largest flare was an X4.2, but the one fully observed by PROBA2 (outside of occultations) was the second largest, the X2.8, seen by LYRA (top panel) and SWAP (bottom panel). The flare peaked on 2026-Feb-02 at 00:36 UT and occurred in the north-eastern quadrant of the Sun.
Find a SWAP movie of the event here: https://proba2.sidc.be/swap/movies/20260202_swap_movie.mp4.

The SIDC Space Weather Briefing


The forecaster on duty presented the SIDC briefing that gives an overview of space weather from 2 to 8 February, 2026 .
The pdf of the presentation: https://www.stce.be/briefings/20260209_SWbriefing.pdf


Review of Ionospheric Activity






VTEC time series at 3 locations in Europe from 2 Feb 2026 till 8 Feb 2026


The top figure shows the time evolution of the Vertical Total Electron Content (VTEC) (in red) during the last week at three locations:
a) in the northern part of Europe(N 61deg E 5deg)
b) above Brussels(N 50.5deg, E 4.5 deg)
c) in the southern part of Europe(N 36 deg, E 5deg)
This top figure also shows (in grey) the normal ionospheric behaviour expected based on the median VTEC from the 15 previous days.


The time series below shows the VTEC difference (in green) and relative difference (in blue) with respect to the median of the last 15 days in the North, Mid (above Brussels) and South of Europe. It thus illustrates the VTEC deviation from normal quiet behaviour.


The VTEC is expressed in TECu (with TECu=10^16 electrons per square meter) and is directly related to the signal propagation delay due to the ionosphere (in figure: delay on GPS L1 frequency).
The Sun's radiation ionizes the Earth's upper atmosphere, the ionosphere, located from about 60km to 1000km above the Earth's surface.The ionization process in the ionosphere produces ions and free electrons. These electrons perturb the propagation of the GNSS (Global Navigation Satellite System) signals by inducing a so-called ionospheric delay.


See http://stce.be/newsletter/GNSS_final.pdf for some more explanations; for more information, see https://gnss.be/SpaceWeather

STCE training courses, lectures and workshops


Courses, seminars, presentations and events with the Sun-Space-Earth system and Space Weather as the main theme. We provide occasions to get submerged in our world through educational, informative and instructive activities.
* Feb 18, 2026, STCE Public Lecture on Proba-3, Volkssterrenwacht Beisbroek, Bruges, Belgium
* Feb 19, 2026, Imagine Space Weather, Science Communication Course, KULeuven, Leuven, Belgium
* Feb 28, 2026, In het oog van de ruimtestorm, Workshop Talim, Beringen, Belgium
* Mar 16-18, 2026, STCE course: Role of the ionosphere and space weather in military communications, Brussels, Belgium - register: https://events.spacepole.be/event/258/
* Apr 20-21, 2026, STCE cursus: inleiding tot het ruimteweer, Brussels, Belgium - register: https://events.spacepole.be/event/260/
* Mar 23, 2026, STCE lecture: From physics to forecasting, Space Weather course, ESA Academy, Redu, Belgium
* Mar 25, 2026, the Belgian Space Weather centre, Space Weather course, ESA Academy, Brussels, Belgium
* Jun 15-17, 2026, STCE Space Weather Introductory Course, Brussels, Belgium - register: https://events.spacepole.be/event/256/
* Oct 12-14, 2026, STCE Space Weather Introductory Course, Brussels, Belgium - register: https://events.spacepole.be/event/257/
* Nov 23-25, 2026, STCE course: Role of the ionosphere and space weather in military communications, Brussels, Belgium - register: https://events.spacepole.be/event/259/
* Dec 7-9, 2026, STCE Space Weather Introductory Course for Aviation, Brussels, Belgium - register: https://events.spacepole.be/event/262/


To register for a course and check the seminar details, navigate to the STCE Space Weather Education Center: https://www.stce.be/SWEC
If you want your event in the STCE newsletter, contact us: stce_coordination at stce.be



Website: https://www.stce.be/SWEC