As time progresses, microcontrollers and electronic devices lose their precision due to many environmental factors, including magnetic waves. This error affects many different processes in the world that require a delicate precision to be performed.
However, we have just addressed this issue, recently a team at the Center for Nanoscale Materials associated with the United States Department of Energy working at Argonne National Laboratory has discovered a new technology that can change how components works. The research included the creation of a micromechanical device that reacts to external waves in a different way to current technologies.
This resonator can respond and respond to multiple frequencies even if it has only one frequency. According to the researcher leading the team, "The news is here, if you span this resonator unit in the right way, the structure vibrates with a spectrum of multiple frequencies evenly distributed despite the fact that it is driven by a single frequency."
Common approaches include the use of several resonators. In this case, the creation of a single resonator that responds to multiple frequencies is a breakthrough. This allows devices to be less complex in creation. This allows many devices to multitask in a connected network without error in precision.
The next step of the study is to try to expand the number of frequencies that the resonator can handle. In addition, the use of higher frequencies is also important for the study to understand the effects of different applications.