By Soulskill from Slashdot's enforcing-due-diligence department
sends this report from Motherboard:Canadian police say they've uncovered a massive online file sharing network for exploitative material that could involve up to 7,500 users in nearly 100 countries worldwide. But unlike past investigations into the distribution of child porn, which typically involve targeting suspects individually, police have instead seized over 1.2 petabytes of data ... from a data center responsible for storing the material, and may even attempt to lay criminal charges against its operators, too.
"What we are alleging is occurring is that there are individuals and organizations that are profiting from the storage and the exchange of child sexual exploitation material," Scott Tod, Deputy Commissioner of the Ontario Provincial Police (OPP), told Motherboard at a conference late last month, after speaking to a crowd of defense specialists. "They store it and they provide a secure website that you can log into, much like people do with illegal online gaming sites."Read Replies (0)
By samzenpus from Slashdot's suitable-for-framing department
sends word that scientists have succeeded in capturing the first-ever snapshot of the dual behavior of light. "It's one of those enduring Zen koans of science that we've all grown up with: Light behaves as both a particle and a wave—at the same time. Einstein taught us that, so we're all generally on board, but to actually understand what it means would require several Ph.D.s and a thorough understanding of quantum physics. What's more, scientists have never been able to devise an experiment that documents light behaving as both a wave and a particle simultaneously. Until now. That's the contention of a team of Swiss and American researchers, who say they've succeeded in capturing the first-ever snapshot of light's dual behavior. Using an advanced electron microscope – one of only two on the planet – at the EPFL labs in Switzerland, the team has generated a kind of quantum photograph of light behaving as both a particle and a wave. The experiment involves firing laser light at a microscopic metallic nanowire, causing light to travel — as a wave — back and forth along the wire. When waves traveling in opposite directions meet, they form a "standing wave" that emits light itself — as particles. By shooting a stream of electrons close to the nanowire, the researchers were able to capture an image that simultaneously demonstrates both the wave-nature and particle-nature of light. 'This experiment demonstrates that, for the first time ever, we can film quantum mechanics — and its paradoxical nature — directly,' says lead researcher Fabrizio Carbone of EPFL, on the lab's project page. The study is to be officially published this week in the journal Nature Communications."Read Replies (0)