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Observations

Space Based Imaging

More data: SWAP, EUI

Ground Based Imaging

More: H-α, WL, Ca-IIK, Drawings

Ground Based Radio

More: ARCAS+HSRS, CALLISTO

Space Based Timelines

More data: LYRA, TSI

WDC Sunspot Index

More data: SILSO

Space Weather Services

Detections

Solar Map

Latest Alerts

Presto 2024-12-08

An X2.2 flare (SIDC Flare 2856) was recorded with a peak time of 09:06 UTC on December 8, associated with SIDC Sunspot Group 305 (NOAA Active Region 3912). Type II radio emissions were detected at 09:05 UTC during the flaring activity, indicating there may be an associated CME. Coronagraph data will be analyzed when available to determine if any associated CME is Earth-directed. The 10 MeV proton flux is currently at background levels, but an increase may be possible due to this event, given the location of the source region.

Flaremail 2024-12-08

A class X2.2 solar X-ray flare occurred on 2024/12/08 with peak time 09:06UT

CACTus Halo 2024-12-08

A halo or partial-halo CME was detected with the following characteristics: t0 | dt0| pa | da | v | dv | minv| maxv| 2024-12-05T15:36:07.505 | 9.0 | 196 | 170 | 395 | 208 | 190 | 1008 t0: onset time, earliest indication of liftoff dt0: duration of liftoff (hours) pa: principal angle, counterclockwise from North (degrees) da: angular width of the CME (degrees), v: median velocity (km/s) dv: variation (1 sigma) of velocity over the width of the CME mindv: lowest velocity detected within the CME maxdv: highest velocity detected within the CME

Forecasts

  • Flare: M-class flares
    (≥50%)
  • Protons: Warning condition
    (increased activity)
  • Geomagnetic: Quiet
    (A<20 and K<4)
  • All quiet: False
  • Provisional SSN: 113

Solar Activity

URSIgram 2024-12-09

Solar flaring activity over the last 24 hours has been at moderate levels, with one M-class flare. The strongest flare was an M1.5 flare peaking at 16:11 UTC on December 08, produced by SIDC Sunspot Group 305 (NOAA Active Region 3912, magnetic type beta). There are currently six numbered active regions on the solar disk. The most complex one is SIDC Sunspot Group 330 (NOAA Active Region 3916, magnetic type beta-gamma). SIDC Sunspot Group 302 (NOAA Active Region 3910) and SIDC Sunspot Group 331 (NOAA Active Region 3918) have rotated behind the west limb. SIDC Sunspot Group 329 (NOAA Active Region 3915) has decayed into plage. SIDC Sunspot Group 332 (NOAA Active Region 3920, magnetic type beta) has rotated on disk from the east limb. SIDC Sunspot Group 333 (NOAA Active Region 3919, magnetic type beta) has emerged in the southeast quadrant, east of SIDC Sunspot Group 330 (NOAA Active Region 3916), near the central meridian. The solar flaring activity is expected to be at moderate levels over the next 24 hours, with M-class flares expected and a small chance for X-class flares. Preliminary analysis of the Coronal Mass Ejection (CME) observed in LASCO/C2 coronagraph imagery starting at 09:24 UTC on December 08 suggests no impact on Earth. No other Earth-directed CMEs were observed in the available coronagraph imagery. A positive polarity coronal hole in the northern hemisphere, SIDC Coronal Hole 82, is still crossing the central meridian. The greater than 10 MeV proton flux was below the threshold level over the past 24 hours. It is expected to remain below the threshold level over the next 24 hours, pending no further eruptive activity from SIDC Sunspot Group 305 (NOAA Active Region 3912). The greater than 2 MeV electron flux measured by GOES 16 and GOES 18 was below the threshold level in the last 24 hours and it is expected to remain so over the next 24 hours. The 24-hour electron fluence is presently at normal levels and is expected to remain so over the next 24 hours.

Solar Wind

URSIgram 2024-12-09

Geomagnetic conditions globally reached active levels (NOAA Kp 4) between 00:00 UTC and 03:00 UTC on December 09. Geomagnetic conditions locally reached active levels (K BEL 4) between 05:00 UTC and 06:00 UTC on December 09. Mostly quiet conditions, with a small chance of active intervals are expected globally and locally over the next 24 hours. The solar wind conditions (ACE & DSCOVR) were enhanced during the last 24 hours following the arrival of a high-speed stream from the northern, positive polarity coronal hole that started to cross the central meridian on December 06. Speed values reached 515 km/s. The interplanetary magnetic field values were around 10 nT. The Bz component varied between -9 nT and 6 nT. The interplanetary magnetic field angle was in the positive sector. Enhanced solar wind conditions may be observed over the next 24 hours, with a gradual decrease to slow solar wind conditions.

Research

News

X2SUVI

X2 flare

An X2 flare was associated with a particular feature at radio frequencies.
Launch of Proba-3

December 5, 11:34 CET: Successful Proba-3 launch

“Signal received” After a smooth launch that was postponed by one day, operators and scientists waited to receive a first sign of life from the Proba-3 satellites.
Proba-3 in flight

Launch of Proba-3 on December 4 - postponed for one day

Proba-3 is the latest ESA mission to be launched on December 4, 2024. The exploitation of ASPIICS, the instrument imaging the solar corona, is in the hands of the Royal Observatory of Belgium (ROB), where the associated scientific research will also be coordinated.
 

Activities

Ground Observations

The SIDC monitors the level of solar activity from the photosphere to the corona with ground based instruments located in Uccle and Humain.

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Space Instruments

To avoid the disturbing or blocking effect of the Earth atmosphere, EUV observations of the solar corona need to be made from space...

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Space Weather & Climate

We monitor and forecast solar variability to provide information services  to society and industry about the influence of space weather and climate.

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Data Processing & Distribution

Data processing is necessary to extract relevant information for research studies, whereas data distribution and visualization are part of ROB open data policy.

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Modeling

Modelling of Solar phenomena allows scientists to test theories and to predict Space Weather phenomena and their impact on Earth.

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Supporting Research

The SIDC shares and expands its expertise through interaction with both upcoming and experienced researchers.

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