Because the clock is fully electronic and doesn’t require bulky, power-hungry components used to insulate and excite the atoms, it is manufactured with the low-cost, complementary metal-oxide-semiconductor (CMOS) integrated circuit technology used to make all smartphone chips. In experiments, the molecular clock averaged an error under 1 microsecond per hour, comparable to miniature atomic clocks and 10,000 times more stable than the crystal-oscillator clocks in smartphones. As with the resonance of atoms, this spin is reliably constant enough that it can serve as a precise timing reference. When the molecular rotations cause maximum energy absorption, a periodic output is clocked - in this case, a second. Researchers from MIT’s Department of Electrical Engineering and Computer Science (EECS) and Terahertz Integrated Electronics Group have now built an on-chip clock that exposes specific molecules - not atoms - to an exact, ultrahigh frequency that causes them to spin. When signals drop or weaken - such as in areas surrounded by signal-reflecting buildings or in tunnels - your phone primarily relies on its clock and an accelerometer to estimate your location and where you’re going. Errors can be reduced with corrections from additional satellite signals, if available, but this degrades the performance and speed of your navigation. Your smartphone, therefore, has a much less accurate internal clock that relies on three satellite signals to navigate and can still calculate wrong locations. By “trilaterating” time signals broadcast from these satellites - a technique like triangulation, that uses 3-D dimensional data for positioning - your smartphone and other ground receivers can pinpoint their own location.īut atomic clocks are large and expensive. Several such clocks are installed in all GPS satellites. These clocks rely on the steady resonance of atoms, when exposed to a specific frequency, to measure exactly one second. Today’s most accurate time-keepers are atomic clocks. The chip could one day significantly improve the accuracy and performance of navigation on smartphones and other consumer devices. MIT researchers have developed the first molecular clock on a chip, which uses the constant, measurable rotation of molecules - when exposed to a certain frequency of electromagnetic radiation - to keep time.
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