Geomagnetic Storm Destroys 40 Starlink Satellites, SpaceX Says No Risk To Earth
California: A geomagnetic storm has knocked 40 SpaceX satellites on February 4, after they were launched to a low deployment orbit, 130 miles above Earth.
Dramatic visuals of the space debris are circulating on the internet of a satellite that "lived fast and died very young," astronomy news website Space.com reported.
American aerospace manufacturer SpaceX has said the deorbiting satellites pose zero collision risk with other satellites and by design demise upon atmospheric re-entry--meaning no orbital debris is created and no satellite parts hit the ground.
"On Thursday, February 3 at 1:13 p.m. EST, Falcon 9 launched 49 Starlink satellites to low Earth orbit from Launch Complex 39A (LC-39A) at Kennedy Space Centre in Florida. Falcon 9's second stage deployed the satellites into their intended orbit, with a perigee of approximately 210 kilometers above Earth, and each satellite achieved controlled flight," the company said.
Furthering explaining the incident, the company said SpaceX deploys its satellites into these lower orbits so that in the very rare case any satellite does not pass initial system checkouts it will quickly be deorbited by atmospheric drag. "While the low deployment altitude requires more capable satellites at a considerable cost to us, it's the right thing to do to maintain a sustainable space environment."
The statement said the satellites deployed on Thursday were significantly impacted by a geomagnetic storm on Friday. "These storms cause the atmosphere to warm and atmospheric density at our low deployment altitudes to increase," it added.
According to the statement, preliminary analysis show the increased drag at the low altitudes prevented the satellites from leaving safe-mode to begin orbit raising manoeuvres, and up to 40 of the satellites will re-enter or already have re-entered the Earth's atmosphere.
"The deorbiting satellites pose zero collision risk with other satellites and by design demise upon atmospheric re-entry--meaning no orbital debris is created and no satellite parts hit the ground. 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," the statement added.
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