CHAMELEON-LIKE MATERIAL COULD UNLEASH MORE POWERFUL COMPUTERS
Scientists have made advancements in understanding a material that could be key to the future generation of computer systems, more effective compared to today's silicon-based devices.
"…IF YOU THINK ABOUT THOSE TWO PHASES AS BEING ANALOGOUS TO A ZERO AND A ONE, YOU CAN COME UP WITH SOME INTERESTING NEW WAYS OF INFORMATION PROCESSING."
The current standard of silicon-based computing has provided us a variety of amazing technologies, but designers are beginning to discover silicon's limits. Consequently, for computer system scientific research to maintain progressing it's important to explore alternative products that could enable various ways to do computation, inning accordance with Patrick J. Shamberger, aide teacher in the division of products scientific research and design at Texas A&M College. Vanadium dioxide is one instance.
"It is an extremely fascinating, chameleon-like material that can easily switch in between 2 various stages, from being an insulator to being a conductor, as you heat and cool it or use a voltage," says Sarbajit Banerjee, teacher with joint visits in the chemistry and products scientific research and design divisions. "And if you consider those 2 stages as being analogous to a no and a one, you can come up with some fascinating new ways of information processing.""Before vanadium dioxide can be used in computing, we need to better control its shift from insulator to conductor and back again," Shamberger says. In a brand-new paper in the journal of Chemistry of Products, the group explains doing simply that by including tungsten to the material.
To name a few points, the scientists revealed that tungsten allows the shift to occur over 2 very various paths. The outcome is that the shift from insulator to conductor happens easily and quickly, while the shift from conductor back to insulator is harder.
"Think about it as driving from point A to point B and back again. Going there you take a superhighway, but returning you are on back roadways," Banerjee says.
