solar-weather
Monitor solar weather conditions including geomagnetic storms, solar flares, aurora forecasts, and solar wind data. Uses NOAA Space Weather Prediction Center real-time data.
Solar Weather Monitor 🌞
Track space weather conditions in real-time! Monitor solar flares, geomagnetic storms, aurora forecasts, and solar wind data from NOAA's Space Weather Prediction Center.
Features
🌞 Current Conditions - Real-time space weather status
📅 3-Day Forecast - Predict upcoming solar activity
🌌 Aurora Forecast - Will you see the Northern Lights?
🌊 Solar Wind - Track solar wind magnetic field
🚨 Alerts - Active space weather warnings
📊 Summary - Quick comprehensive overview
Perfect for:
- 📻 Ham radio operators
- 🌌 Aurora chasers & photographers
- 🛰️ Satellite operators
- ⚡ Power grid operators
- 🌍 Space weather enthusiasts
Usage
Current Space Weather
python3 solar-weather.py current
Output:
🌞 Space Weather Conditions
2026-01-27 18:38:00 UTC
📻 R0: none ✅
Radio Blackouts (Solar Flares)
☢️ S0: none ✅
Solar Radiation Storm
🌍 G0: none ✅
Geomagnetic Storm
3-Day Forecast
python3 solar-weather.py forecast
Shows today, tomorrow, and day after with probability percentages for solar events.
Aurora Forecast
python3 solar-weather.py aurora
Output:
🌌 Aurora Forecast
Current Conditions:
Geomagnetic: none
Solar Wind Bz: -2 nT
Tomorrow (2026-01-28):
Geomagnetic: minor
🔮 Aurora Outlook:
⚠️ MODERATE - Aurora possible at high latitudes
Solar Wind Data
python3 solar-weather.py solarwind
Output:
🌊 Solar Wind Magnetic Field
Time: 2026-01-27 18:36:00.000
Bt: 8 nT (Total Magnitude)
Bz: -2 nT (North/South Component)
✅ Slightly negative Bz
Note: Negative Bz (especially < -5 nT) is favorable for aurora activity!
Active Alerts
python3 solar-weather.py alerts
Shows active space weather watches, warnings, and alerts from NOAA.
Quick Summary
python3 solar-weather.py summary
Comprehensive overview of current conditions, solar wind, and tomorrow's forecast.
Understanding Space Weather Scales
NOAA uses three scales to measure space weather severity:
R Scale - Radio Blackouts (Solar Flares)
- R0: No impact
- R1-R2: Minor/Moderate - HF radio degradation
- R3-R5: Strong/Severe/Extreme - HF radio blackout
S Scale - Solar Radiation Storms
- S0: No impact
- S1-S2: Minor/Moderate - Satellite anomalies possible
- S3-S5: Strong/Severe/Extreme - Satellite damage, astronaut radiation
G Scale - Geomagnetic Storms (Aurora!)
- G0: No storm
- G1-G2: Minor/Moderate - Aurora at high latitudes
- G3-G5: Strong/Severe/Extreme - Aurora visible at mid-latitudes!
Example Prompts for Clawdbot
- "What are current space weather conditions?"
- "Is there an aurora forecast for tonight?"
- "Show me the solar wind data"
- "Any geomagnetic storm warnings?"
- "Give me a space weather summary"
- "Will I see aurora in [location]?"
JSON Output
Add --json to any command for structured data:
python3 solar-weather.py current --json
python3 solar-weather.py aurora --json
Data Source
All data comes from NOAA Space Weather Prediction Center (SWPC):
- Official US government space weather monitoring
- Real-time updates
- Free public API
- https://www.swpc.noaa.gov/
Tips for Aurora Watchers 🌌
Best conditions for aurora:
- Geomagnetic Storm (G1 or higher) ✅
- Negative Bz (< -5 nT) ✅
- Clear, dark skies 🌙
- High latitude (or mid-latitude during major storms)
When to watch:
- Check
auroracommand daily - Watch for G-scale warnings
- Monitor solar wind Bz component
- Peak activity often 1-2 hours after sunset
Ham Radio Operators 📻
HF propagation:
- R-scale events disrupt HF radio
- Solar flares cause sudden ionospheric disturbances
- Check
currentbefore contests/DXing - Monitor
alertsfor radio blackout warnings
Future Ideas
- Location-based aurora visibility
- Push notifications for major events
- Historical storm data
- Solar flare predictions
- Satellite pass warnings during storms
Happy space weather watching! 🌞⚡🌌