Space Weather Portal

Negative Bz Triggered Event Schedule

UPDATED:: 2021-12-23 00:00:02.080906


Dst Triggered Event Schedule

UPDATED: 2022-01-27 20:30:01.344820


NOAA/SWPC Current Space Weather conditions: link)
NOAA/SWPC 3-Day Record of solar fluxes and Kp: link)
NOAA/SWPC 3-Day Forecast: link)
Rice Space Institute - Predicted Space Weather conditions (1-3 hours): link)
>> Patricia Reiff's comment on predicting CME-induced big events: link)
European Commission Joint Research Center (JRC) Prototype Ionospheric Prediction Service: link)
UK Met office space weather forecasts: link)

SOHO latest images of solar disk: link)
SOHO satellite movies: link)
CACTUS - Computer Aided CME Tracking: link)
NOAA/SWPC Wang-Sheeley-Arge Model for predicting solar wind: link)

DISCOVR Real-time solar wind: link)
ACE Real-time solar wind: link)

Kyoto WDC real-time DST: link)
NOAA/SWPC real-time Kp: link)
Kyoto WDC real-time AE: link)
Canadian magnetometers 24-hr plots: link)

Extract from joint USAF/NOAA Report of Solar Geophysical Activity (RSGA) issued daily at 22 UTC
SWPC Geophysical Activity Forecast: The geomagnetic field is expected to be at quiet to unsettled levels on day one (27 Jan), quiet levels on day two (28 Jan) and quiet to active levels on day three (29 Jan). Recent activity:G1 (Minor) geomagnetic storm activity was observed on 20 and 21 Jan along with G2 (Moderate) geomagnetic storm activity observed on 21 Jan due to geoeffective coronal hole high speed stream influence coupled with possible transient passage from earlier CME activity. R1 (Minor) radio blackouts were observed on 18 Jan and R2 (Moderate) radio blackouts were observed on 20 Jan. Both events were observed from active Region 2929. S1 (Minor) solar radiation storms were observed on 20 Jan due to flare activity from Region 2929.

SymH Storm Recorder & Predictor : A graphical device for recording SymH and for forecasting storms based on projecting forward from past storms through one or two Carrington cycles.

The date-hr info on the lower horizontal axis indicates the time of minimum SymH for each day for which SymH dipped below -50 nT and the red-faced text indicates the largest such disturbance in a Carrington cycle.

SymH record for year    2014    2015    2016    2017    2018    2019    2020

Credits : Dst/SymH indices used here are obtained from WDC Kyoto, Japan.

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