Space junk threatens to disrupt our daily lives. Here's what experts are trying to do about it - Action News
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Science

Space junk threatens to disrupt our daily lives. Here's what experts are trying to do about it

We may not give it much attention, but Earth is surrounded by more than 165 million pieces of space debris that could cause problems in the future.

'Even a 1-cm piece has the kinetic energy of an exploding grenade,' researcher says

Debris and defunct launcher stages in the geostationary ring. Aging satellites are known to release debris and explosions can occur due to residual energy sources. The resulting fragments can be thrown back and cross the geostationary orbit. (ESA/ID&Sense/ONiRiXEL, CC BY-SA 3.0 IGO)

If you've ever stared up at the starson a dark, clear night, you've likely seen it: an unblinking light slowly gliding across the sky.It could be a satellite. But chances are, it's space junk.

The launch of Sputnik 1 on Oct. 4, 1957, ushered in the Space Age. It also created a trash problem surroundingEarth. Since then, there have been more than 5,000 rocket launches, with part (or parts) left orbiting Earth. There has also been an accumulation of now-defunct satellites.

While space junk may seem inconsequential, the threat it poses to our daily lives is real. We largely take the importance of satellites for granted, but we have come to depend on them for anything from communications to weather toGPS. If you use a cellphone, you're dependent on satellites.

Astronaut Tim Peake took this photo from inside Cupola in 2016, showing a 7-mm diameter chip caused by an impact from a tiny piece of space debris, possibly a paint flake or small metal fragment no bigger than a few thousandths of a millimetre. (ESA/NASA)

Today, the European Space Agencyestimatesthat there are roughly 166 million man-madeobjects in space, ranging in size from one millimetre to the size of a refrigerator. Not every piece is large, but every piece threatens to disrupt our daily lives and a danger tothe life of an astronaut.

"One millimetre and one centimetre, they sound small, but at orbital velocities, the average impact velocity is 10 kilometres a second. So that's 36,000 kilometres anhour,"HolgerKrag, head of the European Space Agency's Space Debris Office, toldCBCNews. "Even a one-centimetre piece has the kinetic energy of an exploding grenade."

Krag isconcerned about the future of space debris, particularly when it comes to constellation satellites, large networks made up of hundreds or even thousands of small satellites.

'They will be launching inthree or four years the same amount of satellitesthat we have launched in the whole history ofspaceflight.'- HolgerKrag, head of European Space Agency's Space Debris Office

On Thursday, SpaceX deployed two satellites as part of itstest for a constellation network that will consist of approximately 4,500 satellites. Another company, OneWeb, has approval for a network of 720 satellitesand Telesat Canada has approval for one with 117. All are designed to provide broadbandinternetservice.

"If you take all the [constellation]proposals together, they will be launching in three or four years the same amount of satellitesthat we have launched in the whole history ofspaceflight," Krag said.

Satellites in orbit up to about 800 kilometres experience drag from Earth's atmosphere, which can cause them to eventually fall back to Earth. That's what is preferred since the object would burn up as it re-entered the atmosphere.

"The orbits of most of these broadband constellation satellites they target orbits far above 1,000 kilometres where the atmosphere is completely absent. So if they fail, they would stay there forever,"Kragsaid.

Space lasers

According to J.-C.Liou, chief scientist at NASA's Orbital Debris Program Office, in 2017, theInternational Space Stationwas forced to move onceto avoid a collisionand satellites had tomanoeuvre 21 times to avoid collisions.

Ensuring that we don't add to the space junk is one step countries are taking to make sure satellites and astronauts are safe.

Some researchers are suggesting novel ways in which to tackle the problem.

One is space lasers. In January, Chinese researchers at the Air Force Engineering University published a study in the journalOptik: International Journal for Light and Electron Opticsthat proposes using a space-based laser to tackle the space debris problem.

While it sounds like science fiction, it is very real science: aprecision laser could gently ease debrisinto a decaying orbit that will re-enter the Earth's atmosphere and break up,declutteringspace. It could also be used to push it into a different orbit, which has come to be known as the satellite graveyard some 35,000 kilometres from Earth.

On Aug. 23, 2016, ESA engineers discovered that their Copernicus Sentinel-1A satellite was damaged by a millimetre-sized particle. The image on the left shows the solar panel before the impact, while the image on the right (red arrow) shows the damage it sustained. (ESA)

But such lasers would be costly. There's also the concern that the technology could be weaponized.

Though there is an agreement among spacefaringcountries through the United Nations Office for Outer Space Affairs, there is no binding international law. In 2007, China tested an anti-satellite rocket, destroying itsownFengyun-1Cin orbit approximately 862 kilometresabove Earth. That single event added more than 3,300 objectsto a catalogue maintained by the U.S. Space Surveillance Network.

Kragwould like to see something in place where all countries adhere to the same standards to avoid such situations.

"We need to prevent a generation of more debris,"Kragsaid. "That is absolutely the most important thing."

(You can see what's in orbit in a 3D visualization at Stuff in Space.)