Antimatter is a shadowy mirror image of the ordinary matter we are familiar with. For the first time, scientists have measured the forces that make certain antimatter particles stick together. The findings, published in Nature, may yield clues to what led to the scarcity of antimatter in the cosmos today.
Σημαντικό βήμα για την κατασκευή εξαιρετικά γρήγορων μικρο-υπολογιστών - https://www.secnews.gr/2015/03/23/%ce%ba%ce%b1%cf%84%ce%b1%cf%83%ce%ba%ce%b5%cf%85%ce%ae-%cf%84%ce%b1%cf%87%cf%8d%cf%84%ce%b7%cf%84%ce%b1%cf%84%cf%89%ce%bd-%cf%85%cf%80%ce%bf%ce%bb%ce%bf%ce%b3%ce%b9%cf%83%cf%84%cf%8e%ce%bd/ - At SecNews In Depth IT Security News, the privacy of our visitors is of extreme importance to us (See this article to l
World's largest particle detector IceCube detects first high-energy neutrinos from the cosmos
This is the highest energy neutrino ever observed, with an estimated energy of PeV. It was detected by the IceCube Neutrino Observatory at the South Pole on January IceCube physicists named it Ernie. (Courtesy: IceCube Collaboration)
The world's most powerful accelerator, the 27 km long Large Hadron Collider (LHC) operating at CERN in Geneva established collisions between lead nuclei, this morning, at the highest energies ever. The LHC has been colliding protons at record high energy since the summer, but now the time has now come to collide large nuclei (nuclei of lead, Pb, consist of 208 neutrons and protons). The experiments aim at understanding and studying the properties of strongly interacting systems at high…
Did the Large Hadron Collider Just Debunk Superstring Theory?