<p>The gigantic telescope, known as IceCube Neutrino Observatory, will detect elusive subatomic particles called neutrinos travelling through Earth at the speed of light.<br /><br />Very little is known about neutrinos, but they are believed to carry information about the birth of our galaxy and the mystery of black holes, a Daily Mail report said.<br /><br />Physicists think that the particles are born when violent cosmic events, such as colliding galaxies or distant black holes, occur at the very edges of the universe, said the report. <br />Travelling unhindered billions of light years through space, these mysterious high-energy particles could provide answers to some of the most fundamental questions about the universe. But first you have to find them.<br /><br />So scientists are using ice to watch for that rare occasion that a neutrino crashes into one of the atoms making up the molecules of water ice.<br /><br />The collision between a neutrino and an atom produces particles known as 'muons' in a flash of blue light called 'Cherenkov radiation.' <br /><br />In the ultra transparency of the Antarctic ice, the optical sensors of the telescope detect this blue light.<br /><br />The trail left in the wake of the subatomic collision allows scientists to trace the direction of the incoming neutrino, back to its point of origin, be it a black hole or a crashing galaxy. <br /><br />The entire project costs $279 million, of which the National Science Foundation in the United States contributed $242 million.<br /><br />The final stretch of construction ended with the drilling of the last of the 86 holes for the 5,160 optical sensors that are now installed to form the main detector. <br /></p>
<p>The gigantic telescope, known as IceCube Neutrino Observatory, will detect elusive subatomic particles called neutrinos travelling through Earth at the speed of light.<br /><br />Very little is known about neutrinos, but they are believed to carry information about the birth of our galaxy and the mystery of black holes, a Daily Mail report said.<br /><br />Physicists think that the particles are born when violent cosmic events, such as colliding galaxies or distant black holes, occur at the very edges of the universe, said the report. <br />Travelling unhindered billions of light years through space, these mysterious high-energy particles could provide answers to some of the most fundamental questions about the universe. But first you have to find them.<br /><br />So scientists are using ice to watch for that rare occasion that a neutrino crashes into one of the atoms making up the molecules of water ice.<br /><br />The collision between a neutrino and an atom produces particles known as 'muons' in a flash of blue light called 'Cherenkov radiation.' <br /><br />In the ultra transparency of the Antarctic ice, the optical sensors of the telescope detect this blue light.<br /><br />The trail left in the wake of the subatomic collision allows scientists to trace the direction of the incoming neutrino, back to its point of origin, be it a black hole or a crashing galaxy. <br /><br />The entire project costs $279 million, of which the National Science Foundation in the United States contributed $242 million.<br /><br />The final stretch of construction ended with the drilling of the last of the 86 holes for the 5,160 optical sensors that are now installed to form the main detector. <br /></p>
