Why in News?
- Aditya-L1, India’s first solar observatory, along with six U.S. satellites, has decoded why the May 2024 solar storm behaved abnormally.
- The storm, also called Gannon’s Storm, showed unexpectedly high geomagnetic impact on Earth.
- ISRO confirmed for the first time ever:
- Magnetic reconnection occurred inside a Coronal Mass Ejection (CME).
- The reconnection region spanned ~1.3 million km (~100× Earth’s size).
- Discovery made using joint data from:
- NASA missions: Wind, ACE, THEMIS-C, STEREO-A, MMS
- DSCOVR (NASA–NOAA joint mission)
Relevance
GS Paper III – Science & Technology
- India’s first solar observatory Aditya-L1.
- Breakthrough in heliophysics: internal magnetic reconnection in CME.
- Multi-satellite scientific collaboration (NASA–ISRO data fusion).
GS Paper III – Disaster Management
- Space weather as a non-conventional disaster risk.
- Threat to:
- Power grids
- GPS & NavIC
- Telecom & aviation
Basics First: What Is a Solar Storm?
- A solar storm is a disturbance caused by:
- Solar flares
- Coronal Mass Ejections (CMEs)
- CMEs:
- Giant clouds of superheated plasma + magnetic fields
- Travel at 500–3,000 km/s
- When CMEs hit Earth:
- Disturb magnetosphere
- Cause:
- Satellite damage
- GPS errors
- Radio blackouts
- Power grid failures
- Intense auroras
What Is a Coronal Mass Ejection (CME)?
- Massive magnetic “bubble” ejected from the Sun
- Contains:
- Charged particles
- Twisted magnetic field lines (flux ropes)
- Normally:
- A single CME interacts with Earth’s magnetic field
- Severity depends on magnetic orientation (southward = dangerous)
What Was Unusual in the May 2024 Storm?
1. Collision of Two CMEs in Space
- Instead of one CME:
- Two CMEs collided mid-space
- Result:
- Intense compression of magnetic fields
- Triggered violent internal magnetic reconnection
2. Magnetic Reconnection Inside the CME (First-Ever Direct Evidence)
- Magnetic reconnection:
- Process where:
- Twisted magnetic field lines snap
- Rejoin in new configurations
- Release enormous energy
- Process where:
- Earlier belief:
- Reconnection mainly occurs:
- On the Sun
- Near Earth’s magnetosphere
- Reconnection mainly occurs:
- New discovery:
- It occurred inside the CME itself during transit
3. Scale of the Reconnection
- Size of reconnection zone:
- ~1.3 million km
- ~100 times the diameter of Earth
- Scientific significance:
- Largest reconnection region ever observed inside a CME
Why Did This Make the Storm More Dangerous?
- CME collision caused:
- Sudden reversal of magnetic fields
- Effects:
- Stronger coupling with Earth’s magnetosphere
- Higher:
- Geomagnetic storm intensity
- Ionospheric disturbances
- Satellite drag
- Power grid stress
Role of Aditya-L1 (India’s Strategic Edge)
- Payloads used:
- Magnetometers
- Plasma analysers
- Solar wind detectors
- Contribution:
- Provided precise 3D magnetic field mapping
- Enabled localisation of the reconnection zone
- This marks India’s:
- Entry into hard-core space weather physics
- Leadership in real-time solar monitoring
Strategic Importance for India
- Protects:
- NavIC
- Defence satellites
- Power grids
- Telecom & internet
- Reduces dependence on:
- U.S. and EU space weather alerts
- Supports:
- Human spaceflight (Gaganyaan)
- Lunar and interplanetary missions
Global Scientific Significance
- Improves:
- Prediction models of CME evolution
- Early warning systems for:
- Aviation
- Military communication
- Stock exchanges
- Validates:
- Multi-satellite cooperative heliophysics
Link with Global Space Weather Preparedness
- Major past disruptions:
- Carrington Event (1859) – Telegraph systems failed
- Quebec blackout (1989) – 9-hour grid collapse
- May 2024 storm confirms:
- Modern digital civilisation is highly vulnerable to solar extremes
Conclusion
- The Aditya-L1–led discovery of internal magnetic reconnection during the May 2024 CME collision marks a paradigm shift in heliophysics.
- It establishes that:
- CMEs are not magnetically stable objects
- Their internal dynamics can amplify storm intensity mid-journey
- For India, this transforms Aditya-L1 from:
- A scientific mission → a strategic national security asset
