SpaceX is in the process of losing up to 40 brand-new Starlink internet satellites due to a geomagnetic storm that struck just a day after the fleet’s launch last week.
A SpaceX Falcon 9 rocket launched 49 Starlink satellites from Florida on Thursday (Feb. 3) from NASA’s historic Pad 39A at the Kennedy Space Center in Cape Canaveral. A day later, a geomagnetic storm above Earth increased the density of the atmosphere slightly, increasing drag on the satellites and dooming most of them.
“Preliminary analysis show the increased drag at the low altitudes prevented the satellites from leaving safe-mode to begin orbit raising maneuvers, and up to 40 of the satellites will reenter or already have reentered the Earth’s atmosphere,” SpaceX wrote in an update Tuesday (Feb. 8).
Geomagnetic storms occur when intense solar wind near Earth spawns shifting currents and plasmas in Earth’s magnetosphere, according to the Space Weather Prediction Center operated by the National Oceanic and Atmospheric Administration. This interaction can warm the Earth’s upper atmosphere and increase atmospheric density high enough above Earth to affect satellites in low orbits like SpaceX’s new Starlink craft. Friday’s geomagnetic storm came on the heels of a sun eruption on Jan. 30 that sent a wave of charged particles toward Earth that was expected to arrive on Feb. 2.
The 49 satellites SpaceX launched last week were deployed in an initial orbit that skimmed as low as 130 miles (210 kilometers) above Earth at its lowest point. SpaceX has said it intentionally releases Starlink batches in a low orbit so that they can be disposed of swiftly in case of a failure just after launch. That orbit design, it turned out, left the fleet vulnerable to Friday’s geomagnetic storm.
“In fact, onboard GPS suggests the escalation speed and severity of the storm caused atmospheric drag to increase up to 50 percent higher than during previous launches,” SpaceX wrote in its update. The satellites were then placed in a protective “safe-mode” and commanded to fly edge-on “like a sheet of paper” to minimize drag effects as the company worked with the U.S. Space Force and the company LeoLabs to track them with ground-based radar, it added.
But for most of the new Starlink satellites, the drag was too much. Locked in their safe-mode, up to 40 of them were expected to fall out of orbit like space debris just days after their launch.
“The deorbiting satellites pose zero collision risk with other satellites and by design demise upon atmospheric reentry — meaning no orbital debris is created and no satellite parts hit the ground,” SpaceX wrote of the satellites’ reentry. “This unique situation demonstrates the great lengths the Starlink team has gone to ensure the system is on the leading edge of on-orbit debris mitigation.”
SpaceX’s Starlink launch last week, called the Starlink 4-7 mission, was the company’s third Starlink flight of 2022. The 49 satellites aboard were expected to join more than 1,800 other Starlink satellites currently in orbit. The mission was SpaceX’s third launch in four days, following the launch an Italian Earth-observation satellite on Jan. 31 and another for the U.S. National Reconnaissance Office on Feb. 2.
SpaceX has been launching fleets of Starlink satellites, sometimes up to 60 at a time, since 2019 to build a megaconstellation in orbit that could number up to 42,000 satellites one day. The project is aimed at providing high-speed internet access to customers anywhere on Earth, especially in remote or underserved areas, SpaceX has said.
The Starlink project has come under criticism by astronomers due to the megaconstellation’s impact on astronomical observations, since the high number of satellites crossing the night sky can leave streaks in telescope views. Since then, SpaceX has worked to limit the visibility of their Starlink satellites to reduce their impact on the astronomy community.