Yale physicists have uncovered hints of a time crystal in the last place they expected: a crystal you might find in a child’s toy, i-e in those crystal-growing kits you can buy for kids.
Time crystal is a form of matter that “ticks” when exposed to an electromagnetic pulse.
Previously, it was thought that time crystal signatures could only occur within a more disordered environment.
However, after subjecting the MAP Crystals i-e monoammonium phosphate crystals to nuclear magnetic resonance, the team found clear time crystal signatures – inside a highly ordered spatial crystal.
The discovery means there are now new puzzles to solve, in terms of how time crystals form in the first place.
If time crystals can occur within ordered spatial arrangements in ordinary crystals, physicists will have to figure out how this occurs – and why a greater number of ordinary crystals don’t exhibit time crystal signatures.
Ordinary crystals such as salt or quartz are examples of three-dimensional, ordered spatial crystals. Their atoms are arranged in a repeating system, something scientists have known for a century.
Time crystals, first identified in 2016, are different. Their atoms spin periodically, first in one direction and then in another, as a pulsating force is used to flip them. That’s the “ticking.” In addition, the ticking in a time crystal is locked at a particular frequency, even when the pulse flips are imperfect.
Scientists say that understanding time crystals may lead to improvements in atomic clocks, gyroscopes, and magnetometers, as well as aid in building potential quantum technologies.
News Source: https://news.yale.edu/2018/05/02/yale-physicists-find-signs-time-crystal