There is a huge global effort to engineer a computer capable of harnessing the power of quantum physics to carry out computations of unprecedented complexity. While formidable technological obstacles still stand in the way of creating such a quantum computer, today's early prototypes are still capable of remarkable feats.
For example, the creation of a new phase of matter called a "time crystal." Just as a crystal's structure repeats in space, a time crystal repeats in time and, importantly, does so infinitely and without any further input of energy -- like a clock that runs forever without any batteries. The quest to realize this phase of matter has been a longstanding challenge in theory and experiment -- one that has now finally come to fruition. In research published Nov. 30 in Nature, a team of scientists from Stanford University, Google Quantum AI, the Max Planck Institute for Physics of Complex Systems and Oxford University detail their creation of a time crystal using Google's Sycamore quantum computing hardware. "The big picture is that we are taking the devices that are meant to be the quantum computers of the future and thinking of them as complex quantum systems in their own right," said Matteo Ippoliti, a postdoctoral scholar at Stanford and co-lead author of the work. "Instead of computation, we're putting the computer to work as a new experimental platform to realize and detect new phases of matter." For the team, the excitement of their achievement lies not only in creating a new phase of matter but in opening up opportunities to explore new regimes in their field of condensed matter physics, which studies the novel phenomena and properties brought about by the collective interactions of many objects in a system. (Such interactions can be far richer than the properties of the individual objects.). Read more...
No comments:
Post a Comment