The contagion of info is the lifeblood ofhumanityand we have been able to do it faster and quicker . The latest platter is so brain - bogglingly fast that to comprehend it , we ought to liken it to the whole internet . Using a single optical maser and a individual ocular fleck , researchers were able to channel 1.8 petabit per second gear . One Pbit is the same as 1 million gigabits , and that amount of information is the equivalent of transmitting twice the globalinternettraffic .

The achievement is incredible and it is all down to the optic check . It is designed as a " frequency comb " – a gadget that can wrick laser light into a rainbow of absolute frequency . The frequencies are all equally space ( like the tooth of a comb ) and each can carry its own stream of data that is then convey through roughage optics . Without this , it would take 1,000 lasers to achieve the same data transmission . Interestingly , it was not built with fiber - optic transmission in intellect , it is just fantastic at it .

“ What is special about this chip is that it produces a absolute frequency coxcomb with ideal characteristic for fiber - optical communications – it has high optic magnate and covers a broad bandwidth within the ghostlike region that is interesting for advanced optic communications , ” Victor Torres Company , fountainhead of the inquiry chemical group that developed the chip and professor at Chalmers University of Technology , said in astatement .

“ In fact , some of the characteristic parametric quantity were achieved by coincidence and not by blueprint . However , with effort in my team , we are now adequate to to vacate engineer the procedure and achieve with gamy duplicability microcombs for target program in telecommunications . ”

The team also modeled the chip and demonstrate that it could eventually be able of making the contagion over 50 times quicker . The ability to expend just one optical maser to move such a vast amount of information would drastically reduce the energy needs of telecommunication engineering .

“ In other words , our solution provides a potential drop for replacing C of thousands of the lasers located at cyberspace hub and data sum , all of which guzzle power and engender passion . We have an opportunity to chip in to achieve an Internet that leaves a smaller climate footmark , ” added Professor Leif Katsuo Oxenløwe , from the Technical University of Denmark .

The squad , like others around the world , is trying to incorporate the optical maser and other ingredient in the chip itself , to make it more effective and even less energy - consuming .

The research was publish inNature Photonics .