Affichage des archives de mardi, 6 février 2024

Bulletin quotidien sur l'activité solaire et géomagnétique du SIDC

Publié: 2024 Feb 06 1259 UTC

Prévisions SIDC

Éruptions solaires

M-class flares expected (probability >=50%)

Géomagnétisme

Quiet (A<20 and K<4)

Moniteur de Flux de Proton

Warning condition (activity levels expected to increase, but no numeric forecast given)

	Flux de 10 cm	Ap
06 Feb 2024	179	008
07 Feb 2024	177	004
08 Feb 2024	174	009

Régions solaires actives et éruptions solaires

Solar flaring activity remained at moderate levels in the past 24 hours. There are eleven numbered active regions on the visible solar disc. The strongest activity was a long duration M4.2 flare, start time 02:37 UTC, peak time 02:37 UTC, end time 03:31 UTC on Feb 6th. This activity was produced by NOAA AR 3575 (beta- gamma-delta), which is the second largest and the most complex region on disc. NOAA AR 3576 (beta-delta) remains the largest region despite undergoing some decay. Two new active regions have been numbered, namely NOAA AR 3577 (beta) and NOAA AR 3578 (alpha). NOAA AR 3565 (beta) has shown some decay. The remaining active regions are magnetically simple and have shown either no development or decay. The solar flaring activity is expected to be at low to moderate levels over the next days with slightly decreased probabilities for further M-class flaring.

Éjection de masse coronale

A south-westward partial halo coronal mass ejection (CME) was registered in the LASCO/C2 coronagraph imagery lifting off the solar surface around 02:36 UTC on Feb 6th. The inhomogeneity of the eruption and the data gaps in STEREO imagery make the assessment of the true CME velocity more challenging. The CME is currently undergoing further analysis, but preliminary results suggest that the bulk of the ejection will miss Earth, while a mild glancing blow arrival might be possible late on Feb 8th. No other Earth-directed CMEs have been detected in the available coronagraph imagery over the past 24 hours.

Vent solaire

Over the past 24 hours the solar wind parameters (ACE and DSCOVR) were enhanced under the continuous influence of a high speed stream originating from a positive polarity coronal hole. The solar wind velocity exceeded 530 km/s. The interplanetary magnetic field remained slightly elevated, reaching a maximum 11.2 nT with a minimum Bz of -9.2 nT. The B field was predominantly in the positive sector (directed away from the Sun). The solar wind conditions are expected to remain at mildly elevated levels throughout Feb 6th and possibly Feb 7th, and start declining towards slow solar wind background until a possible glancing blow arrival in the UTC evening on Feb 8th.

Géomagnétisme

The geomagnetic conditions over the past 24 hours were quiet to unsettled. Mostly quiet to unsettled geomagnetic conditions are expected to prevail throughout Feb 7th with possible isolated active levels. Small chances for minor geomagnetic storms late on Feb 8th in case the potential glancing blow from the Feb 6th ICME arrives to Earth.

Niveaux de flux de protons

Over the past 24 hours the greater than 10 MeV GOES proton flux was slightly enhanced due to the solar eruptive activity originating from NOAA AR 3575. The greater than 10 MeV GOES proton flux is expected to continue to increase over the day with small chances of exceeding the minor radiation storm threshold. The greater than 10 MeV GOES proton flux might remain slightly enhanced, pending new eruptive solar activity.

Flux d'électrons sur l'orbite géostationnaire

The greater than 2 MeV GOES 16 electron flux was below the 1000 pfu threshold and is expected to remain so in the upcoming days.The 24h electron fluence was at nominal level and is expected to remain so in the next days.

Estimation du nombre international de taches solaires (ISN) pour aujourd'hui : 157, sur la base de 09 stations.

Indices solaires pour 05 Feb 2024

Nombre de Wolf, observé par Catania	///
Flux solaire à 10 cm	173
AK Chambon La Forêt	014
AK Wingst	007
Ap estimé	006
Nombre international de taches solaires estimé	162 - Basé sur 16 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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