Affichage des archives de vendredi, 9 janvier 2026

Bulletin quotidien sur l'activité solaire et géomagnétique du SIDC

Publié: 2026 Jan 09 1231 UTC

Prévisions SIDC

Éruptions solaires

C-class flares expected, (probability >=50%)

Géomagnétisme

Active conditions expected (A>=20 or K=4)

Moniteur de Flux de Proton

Quiet

	Flux de 10 cm	Ap
09 Jan 2026	131	022
10 Jan 2026	132	026
11 Jan 2026	130	040

Régions solaires actives et éruptions solaires

Solar flaring activity was low over the past 24 hours, with several C-class flares recorded. The largest flare was a C5.6 flare (SIDC Flare 6614), peaking at 17:30 UTC on January 8, associated with SIDC Sunspot Group 722 (NOAA Active Region 4334; magnetic type beta), which was the main driver of the flaring activity observed over the past 24 hours. There are currently four numbered active regions on the visible solar disk. SIDC Sunspot Group 754 (NOAA Active Region 4336; magnetic type beta-gamma-delta) remains the most complex active region on the disk but produced only low-level C-class flare. Solar flaring activity is expected to remain low over the next 24 hours, with C-class flares very likely and a small chance for M-class flares.

Éjection de masse coronale

A partial halo coronal mass ejection (SIDC CME 622) was observed in LASCO/C2 coronagraph data starting at 17:00 UTC on January 8. The CME is directed primarily toward the southeast from Earth's perspective and is likely associated with a filament eruption in the southeast from SIDC Sunspot Group 722 (NOAA Active Region 4334) and a C5.6 flare (SIDC Flare 6614), peaking at 17:30 UTC on January 8, produced by SIDC Sunspot Group 722. The CME may have an Earth-directed component, with a predicted arrival time late on January 10 - early on January 11. Further analysis of the faint coronal mass ejection (SIDC CME 620), observed in SOHO/LASCO-C2 at around 06:24 UTC on January 8 and directed toward the southeast from Earth’s perspective, indicates that the bulk of the ejecta is expected to miss Earth, but a glancing blow cannot be excluded late on January 10. No other Earth-directed CMEs were detected in the available coronagraph imagery over the past 24 hours.

Vent solaire

Over the past 24 hours, solar wind parameters (ACE and DSCOVR) were indicative of a probable mixture of an ICME arrival, associated with the CME that lifted off the solar surface at around 02:00 UTC on January 6 (SIDC CME 619), and the arrival of a high-speed stream (HSS) from negative polarity coronal holes (SIDC Coronal Hole 144 and SIDC Coronal Hole 145). The interplanetary magnetic field increased to values up to 14 nT, and its southward component reached a minimum of about -10 nT. The solar wind speed increased from values about 380 km/s to 560 km/s. Solar wind conditions are expected to remain elevated over the next days, with a chance of a weak enhancement on January 10-11 due to possible ICME arrivals associated with the CMEs that lifted off the solar surface at around 06:24 UTC on January 8 (SIDC CME 620) and around 17:00 UTC on January 8 (SIDC CME 622).

Géomagnétisme

Geomagnetic conditions reached active levels globally (NOAA Kp = 4-) between 00:00 and 03:00 UTC on January 9. Locally over Belgium, quiet to unsettled conditions were observed (K-Bel = 1 to 3). Mostly unsettled to active geomagnetic conditions are expected over the next days, with a chance of isolated minor to moderate storm periods, due to the ongoing influence of a high-speed stream, probably mixed with an ICME arrival associated with the CME that lifted off the solar surface at around 02:00 UTC on January 6 (SIDC CME 619). From late on January 10 - early January 11, minor to moderate geomagnetic storm levels are possible in the event of additional ICME arrivals associated with the CMEs that lifted off the solar surface at around 06:24 UTC on January 8 (SIDC CME 620) and around 17:00 UTC on January 8 (SIDC CME 622).

Niveaux de flux de protons

The greater than 10 MeV proton flux, as measured by the GOES-19 satellite, was at background levels over the past 24 hours and is likely to remain so over the next 24 hours.

Flux d'électrons sur l'orbite géostationnaire

The greater than 2 MeV electron flux, as measured by the GOES-18 and GOES-19 satellites, remained below the 1000 pfu threshold over the past 24 hours. The greater than 2 MeV electron flux is expected to remain below the 1000 pfu threshold over the next 24 hours. The electron fluence was at normal levels and is expected to be at normal levels over the next 24 hours.

Estimation du nombre international de taches solaires (ISN) pour aujourd'hui : 055, sur la base de 05 stations.

Indices solaires pour 08 Jan 2026

Nombre de Wolf, observé par Catania	074
Flux solaire à 10 cm	140
AK Chambon La Forêt	021
AK Wingst	017
Ap estimé	016
Nombre international de taches solaires estimé	079 - Basé sur 10 stations

Résumé des événements marquants

Données fournies par le Solar Influences Data analysis Center© - SIDC - Traité par SpaceWeatherLive

Toutes les heures sont indiquées en UTC

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