
What is Solar Beta? The Phenomenon That Delayed Astronaut Shubhanshu Shukla’s Return from Space
India’s Group Captain Shubhanshu Shukla, part of the Axiom-4 mission crew, was initially scheduled to return to Earth around July 10 after a two-week stay aboard the International Space Station (ISS). However, his return was postponed due to a little-known but critical factor: high solar beta angle.
This article explains what solar beta is, why it affects spacecraft operations, and how it influenced the Axiom-4 mission’s extended stay in orbit.
What is Solar Beta?
Solar beta refers to the angle between the Sun and a spacecraft’s orbital plane. This angle determines how much continuous sunlight the spacecraft receives.
- Low Solar Beta: The spacecraft alternates between sunlight and Earth’s shadow (normal conditions).
- High Solar Beta: The Sun remains either above or below the spacecraft’s orbit, leading to prolonged sunlight exposure for days or even weeks.
For the Axiom-4 mission, high solar beta meant the Crew Dragon spacecraft would face non-stop sunlight, increasing thermal stress on critical systems.
Why Did High Solar Beta Delay the Axiom-4 Mission?
NASA avoids launching or returning spacecraft during high solar beta periods due to extreme temperature fluctuations.
How Extreme Temperatures Affect Spacecraft
- External Temperature:
- In sunlight: 120–150°C
- In Earth’s shadow: -150 to -170°C
- Internal Temperature: Maintained at 20–30°C for astronaut safety and electronics.
Risks of Prolonged Sunlight Exposure
- Overheating of Solar Panels & Radiators – Reduces efficiency.
- Battery Overload – Continuous charging can damage power systems.
- Thermal Stress on Materials – Risk of structural wear.
NASA’s Commercial Crew Program Manager confirmed that undocking was delayed until July 14 to avoid these risks.
Why Was the Axiom-4 Launch Also Affected by Solar Beta?
Before the June 25 launch, NASA had postponed Axiom-4 seven times due to:
- Weather conditions
- Technical checks
- High solar beta concerns
Dana Weigel, NASA’s ISS Program Manager, stated that if the launch didn’t happen by June 30, it would have to wait until after mid-July when solar beta decreased.
How Often Does Solar Beta Impact Space Missions?
High solar beta periods occur twice a year for the ISS, each lasting a few weeks. NASA and other space agencies plan missions around these windows to minimize risks.
Other Missions Affected by Solar Beta
- SpaceX Crew Dragon – Previous delays due to thermal constraints.
- Russian Soyuz – Adjusts docking schedules to avoid overheating.
What’s Next for the Axiom-4 Crew?
The Crew Dragon is set to:
- Undock: July 14, 4:30 PM IST
- Splashdown: July 15, 3:00 PM IST (off Florida coast)
Key Takeaways
Solar beta determines sunlight exposure on spacecraft.
High solar beta causes overheating risks, delaying missions.
NASA avoids launches & landings during these periods.
High solar beta—a prolonged sunlight exposure angle—forced NASA to delay astronaut Shubhanshu Shukla’s return from the ISS. Extreme heat risks to spacecraft systems mean agencies must carefully schedule missions around these periods.



