Need something more to worry about? Here comes space junk
As if living in space weren’t difficult enough.
The Russian military recently tested a direct-ascent antisatellite, or ASAT, missile on an old Soviet orbital, Cosmos 1408. The resulting cloud of debris — numbering 1,500 individual pieces so far — sent astronauts aboard the International Space Station scrambling for safety as the wreckage passed near the craft every 90 minutes. Secretary of State Antony Blinken echoed NASA and Pentagon officials in criticizing the “dangerous and irresponsible” demonstration. The political fallout is still ongoing
Russia’s test comes on the heels of a slew of international ASAT experiments that have occurred in recent years. In January 2007, China destroyed one of its own weather satellites with a kinetic kill vehicle. A year later the United States intercepted a defunct National Reconnaissance Office satellite, which contained nearly 1,000 pounds of toxic hydrazine fuel.
India joined the party in 2019 with Mission Shakti, which adapted an anti-ballistic missile interceptor for the ASAT role.
It is in light of these tests that one perceives events in space beginning to spiral out of control.
Indeed, catastrophe looms. Altogether these tests have produced thousands of pieces of orbital debris, which have joined the millions of “space junk” objects already circling the globe around the clock.
At this very moment, the Defense Department’s global Space Surveillance Network is monitoring more than 27,000 such objects, the vast majority of which are larger than a softball. An uncountable multitude of other debris is too small to track.
In their orbits these fragments travel at speeds up to 15,700 miles per hour. That’s more than 10 times the speed of a flying bullet and more than 20 times the speed of sound, fast enough to turn a toaster into a locomotive, a paint chip into piercing shrapnel.
British astronaut Tim Peake brought the point home in
2016 when he snapped a photo of a dent in the glass window of the space station that had been inflicted by a crumbsized scrap of debris no more than a few thousandths of a millimeter across. That’s about the width of dental floss.
NASA scientists Donald Kessler and Burton Cour-palais imagined just such a scenario in a seminal 1978 paper for the Journal of Geophysical Research. Collisions between the growing number of LEO satellites, they predicted, would lead to the growth of a belt of debris around the Earth. “Under certain conditions the belt could begin to form within this century and could be a significant problem during the next century,” the scientists wrote.
Remarkably, in the very same month that Kessler and Cour-palais published their findings, the United States and the Soviet Union began talks to place limits on ASAT weapons. The two sides held three rounds of talks in Helsinki, Bern and Vienna between June 1978 and June 1979.
Then, seemingly overnight, new life breathed into the Cold War: the Soviet invasion of Afghanistan, the United States’ refusal to sign the SALT II treaty, and Jimmy Carter’s withdrawal from the 1980 Moscow Olympics.
Though the Kremlin submitted a draft treaty on space weapons to the United Nations in 1981 and again in 1983, no agreement on ASATS was forthcoming.
It is essential that the ASAT players — China, India, Russia and the United States — begin multilateral talks to mitigate .the environmental and security risks posed by the destruction of satellites.
Thankfully avenues for reconciliation already exist. Canadian law professor Michael Byers headlines a massive list of experts who have written an open letter outlining the contours of a Kinetic ASAT Test Ban Treaty.
Since the mid-1980s the United Nations has hosted committee debates and issued resolutions for the Prevention of an Arms Race in Outer
Space Treaty, which would forbid the use of force against space objects. And the U.N.’S Institute for Disarmament Research has submitted its own proposal for ASAT test guidelines.
Now for Pete’s sake, for our Wi-fi’s sake, get started!