You can watch a video of it here. 

Again, this isn’t going to allow us to "beam you up" anytime soon, but it does take us closer to the holy grail of computing: quantum computers. Quantum computing is quite different from the conventional form of processing, which every computer on earth uses today. For example, conventional computers process binary information, or a bunch of on/off states or 0′s and 1′s. Quantum components operate within the spooky realm quantum states, which allow for every possible state to exist simultaneously (huh?). Yeah, we’re talking about processing infinitely larger data sets with unimaginable speed. Processing information with quantum states further complicates the entire computing infrastructure because the information also need to be transmitted from one location to another. For example, digital computers send information, along tiny copper wires, from one component to another; however transmitting quantum information (at least with today’s technology) requires lasers, and lasers require optical components like fiber optics.

Interestingly, a team of from engineers at UCSB and Intel recently announced a major breakthrough in optical computing. The team announced (sept 18th, 2006, which happens to be my birthday) the development of a new silicon chip that can produce light (in the infra-red range). Why is this important? Well, today’s computer [speeds] are limited to the physical limitations of the metals they use to transmit and process the information from one component to another. Copper, for example, resists the transmission of electrons. This resistance not only limits the speed at which electrons flow through the material but it also creates and incredible amount of heat as speeds, well…speed up. The transmission of light eliminates the speed and thermal bottlenecks. It’s a great time to be a geek.

Interesting Links: Scientific American qubit.org sfgate