.. copy-and-pasted from the website called "Daily Mail".. article written by William Hunter .. .. lois lane (brianne edwards): "Wow!!"

Daily Mail 1.8M Followers Dark matter seen for first time: Eerie image shows elusive substance that makes up 25% of universe Story by Wiliam Hunter • 1w • 3 min read Despite making up more than a quarter of the universe, dark matter has remained stubbornly hidden from scientists' telescopes for decades. But researchers from Johns Hopkins University now believe they have found the evidence they have been searching for. While the elusive substance doesn't give off any energy of its own, when dark matter particles collide, they produce a burst of gamma–ray radiation. You’ll Be Surprised How Many of These Leaders You Don’t Recognize Ad You’ll Be Surprised How Many of These Leaders You Don’t Recognize PopScope call to action icon more For this reason, researchers believe the mysterious gamma–ray glow coming from inside our very own galaxy could reveal exactly where dark matter is hiding. If they are right, this could be the first concrete proof that dark matter really exists. 'Dark matter dominates the universe and holds galaxies together,' said Professor Joseph Silk, co–author of the study. 'It's extremely consequential and we're desperately thinking all the time of ideas as to how we could detect it. 'Gamma rays, and specifically the excess light we're observing at the centre of our galaxy, could be our first clue.' Scientists say that a glow of gamma ray radiation from the Milky Way could be evidence that dark matter exists. In a new paper, researchers argue that this glow is produced by colliding particles of dark matter Scientists say that a glow of gamma ray radiation from the Milky Way could be evidence that dark matter exists. In a new paper, researchers argue that this glow is produced by colliding particles of dark matter Dark matter is an elusive type of particle that makes up a large part of the extra mass that is 'missing' from most galaxies. Although scientists can see the gravitational effects this hidden mass creates, dark matter doesn't give off any energy of its own that our telescopes can detect. Related video: Scientists Reveal What’s Really Growing As The Universe Expands (Veritasium) Video Player is loading. Current Time 0:00 / Duration 12:27 Veritasium Scientists Reveal What’s Really Growing As The Universe Expands 0 View on Watch View on Watch Since 2008, NASA's Fermi satellite has been slowly piecing together a picture of the Milky Way using gamma rays. When scientists looked at this gamma ray picture of the galaxy, they noticed something extremely unusual. The centre of the Milky Way seemed to be filled with a diffuse glow of gamma radiation that didn't appear to come from any specific source. To explain this, scientists put forward two competing explanations. Either the glow was caused by the spinning cores of dying stars – or it was was caused by colliding dark matter. However, figuring out which of these explanations is the most likely has proved tricky. Researchers believe the mysterious gamma–ray glow coming from inside our very own galaxy could reveal exactly where dark matter is hiding Researchers believe the mysterious gamma–ray glow coming from inside our very own galaxy could reveal exactly where dark matter is hiding What is dark matter? Dark matter outweighs visible matter roughly six to one, making up about 27 per cent of the universe. Unlike normal matter, dark matter does not interact with the electromagnetic force. This means it does not absorb, reflect or emit light, making it extremely hard to spot. In fact, researchers have been able to infer the existence of dark matter only from the gravitational effect it seems to have on visible matter. Unlock Education Insights Ad Unlock Education Insights Agile Education Marketing call to action icon more Source: CERN In their study, published in the journal Physical Review Letters, the researchers used supercomputers to create a map of where dark matter should be in the galaxy. What made their approach different was that they took into account how the Milky Way came into existence. 'Our galaxy formed out of a vast cloud of dark matter,' explains Professor Silk. 'The ordinary matter cooled down and fell into the central regions, dragging along some dark matter for the ride.' Over billions of years, the dark matter from these other systems gravitated to the dense galactic core, and the number of collisions increased. When Professor Silk took these simulations and compared them to real pictures of the galaxy taken by Fermi, he found that their predictions were a match. Although this isn't yet a 'smoking gun' for the existence of dark matter, it raises the tantalising possibility that the gamma ray glow really is coming from dark matter. Speaking to the Daily Mail, Professor Silk said: 'Our key new result is that dark matter fits the gamma ray data at least as well as the rival neutron star hypothesis. In a new paper, scientists simulated where they thought dark matter should be in the galaxy (illustrated), and worked out what the pattern of gamma rays should look like. When they compared this to the actually distribution of gamma rays they found that the predictions matched In a new paper, scientists simulated where they thought dark matter should be in the galaxy (illustrated), and worked out what the pattern of gamma rays should look like. When they compared this to the actually distribution of gamma rays they found that the predictions matched 'We have increased the odds that dark matter has been indirectly detected.' It is still possible that the gamma ray glow is being produced by spinning neutron stars. Professor Silk says his 'great hope' is that the soon–to–be–constructed Cerenkov Telescope Array in Chile will be able to settle the debate once and for all. A new age of power is born Ad A new age of power is born Alienware call to action icon more This will be the world's most powerful gamma ray telescope, and should have the sensitivity to detect the tiny differences between gamma rays produced by dark matter and radiation from spinning neutron stars. Alternatively, the telescope could scan nearby dwarf galaxies, which should be made mostly of dark matter. 'Detecting the same signal Fermi found for the galactic centre would confirm the dark matter hypothesis,' says Professor Silk. Read more Have scientists uncovered the universe's 'missing matter' in a colossal filament stretching millions of light-years? What groundbreaking cosmic revelations await from the latest simulation tackling the universe's most enigmatic dark matter? Could the universe be hiding secret antimatter galaxies just out of sight? What groundbreaking discoveries lie in the largest 3D cosmic map, revealing secrets of dark matter and dark energy? Could the universe's fundamental forces hold the breathtaking secret behind what we once believed was dark energy? Sponsored Daily Mail Visit Daily Mail England's woeful one-day record rolls on as Harry Brook's side fall to defeat against New Zealand Ange's return no sure thing as Celtic job becomes a tough sell Cher, 79, and toyboy Alexander 'AE' Edwards, 39, hold hands on red carpet Sponsored