Detection of gravitational waves marks new era in astronomy: Bob McDonald - Action News
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ScienceBlog

Detection of gravitational waves marks new era in astronomy: Bob McDonald

The announcement Thursday that elusive gravitational waves have been detected for the first time heralds a new era in astronomy that could be as important as Galileos first use of the telescope.

Discovery could be as important as Galileos first use of the telescope

A supermassive black hole, with millions to billions times the mass of our sun, is seen in an undated NASA artist's concept illustration. (NASA/Reuters)

The announcement this weekthat elusive gravitational waves have been detected by the LIGO experimentheralds a new era in astronomy that could be as important as Galileo's first use of the telescope.

The ultra-sensitive LIGO experiment discovered ripples in space-time, caused by the merger of two black holes an effect that was predicted by Einstein's Theory of General Relativity 100 years ago.

Einstein's remarkable vision of space and time as a flexible continuumthat can be warped and shaken by gravity, like the surface of a trampoline with kids jumping on it, has been proven true.

The fact that these ripples in space-time exist also means that theories about the formation of black holes, neutron stars, and even the birth and expansion of the universe itself are correct as well.

U.S.-based Laser Interferometer Gravitational-Wave Observatory (LIGO) used to detect gravitational waves has two detectors - one in Hanford, Wash., and the other in Livingston, Louisiana (above). (LIGO)
Perhaps more importantly, gravitational waves could open an entirely new window on the universe that could be as profound as the one opened by Galileo more than 400 years ago.

When he pointed an optical telescope at the heavens, he saw celestial objectssuch as the moon or Jupiterwhich had been viewedas gods by the ancientstransformed into real worlds with mountains, valleys, clouds and weather.

That led to the giant telescopes we see today on mountaintops and in space, whichpeer out to the very edge of the universe and can track events back to the beginning of time.

In 1931, another window opened when Carl Jansky, a technician with Bell Laboratories, discovered radio waves coming from space. They'reinvisible to our eyes, butwhen caught by radio telescopes, reveal things that don't show up in optical telescopes.

An artist's impression of a black hole engine. Fuelled by matter lured by the hole's vast gravity, most of the energy released by this matter as it gets close to the black hole's point of no return - known as the event horizon - shows up in the form of high-energy jets, which spew forth from magnetized discs of gas. (NASA/Reuters)
Radio astronomy showed that what appeared to be ordinary galaxieswere actually surrounded by enormous clouds of gasmillions of light years across, with more gasshooting out from their centres.

It alsodiscovered bizarre objects, such as pulsars, which are rapidly spinning super-dense stars that send out radio beacons like celestial lighthouses. Even the afterglow of the Big Bang itself has been seen beyond the most distant galaxies thanks to radio astronomy.

Since then, telescopes have been developed to detectX-rays and Gamma Rays coming from space, with all of these branches of astronomy seeing the universe in a different wayand all of them complementing each other.

Now, gravitational waves could herald another revolution in space science, as they become the latest opening to the endlessly fascinating universe.

The waves carry information the same way light and radio waves do, with the advantage that they are not affected by dust in space or clouds that obscure optical instruments.

That means they travel across the universe unchanged, providing pure information about the objects that created them. And the information they carry is about the strangest objects known:black holes, neutron stars, supernovae and other extreme cosmic events.

This artist's concept chronicles the star being ripped apart and swallowed by a black hole over time. The area around the black hole appears warped because the gravity of the black hole acts like a lens, twisting and distorting light. (NASA/Reuters)
Perhaps most excitingis the possibility that we will discover, through gravity waves, new kinds of objects or processes we don't even know exist.

Having a new medium to explore the unknown is like discovering you have a sense of hearing when all you've been doing is using your eyes.

In fact, the frequency of gravitational waves is the same asthe audio range, so we can listen to the collision of black holes. Who knows what we'll discover out there, if we really listen carefully.

(To find out more about gravitational wavesand this week's excitingannouncement, tune into Quirks & Quarks on Saturday on CBC Radio One, or download the audio on our website).