New types of time crystals can make a new type of atom clocks possible.

The time crystals that can operate at room temperature can be used as the next-generation extremely high-accurate clocks. The idea in the time crystals is that those atomic-scale structures can keep the energy that is stored in them. So the time crystal is the thing where energy impact is putting the crystals wobble in the "box". When those crystals are wobbling.

They transmit energy to the box's core. And then energy travels back to the crystals. In the quantum world time, crystals are possible only in quantum-scale structures. The thing is that. The time crystal is the quantum-scale perpetual motion machine.

The idea of a perpetual motion machine is that the machine takes energy punch. And then it will move forever. So perpetual motion machine recycles energy that is stored in it. The thing is that the perpetual motion machine is impossible because friction eats that energy. So the perpetual motion machine would not create energy. It just recycles it.

The time crystal is the quantum-scale perpetual motion machine as I wrote before. Or the system requires the beginning energy. And the friction in the quantum world is minimum. Time crystal recycles energy through wobbling structures. And that thing can use in the most accurate clocks in the world.

The large network of atom clocks can uncover the form of time. And uncover the thing. Is time connected to material or space?

But the problem has been that for working perfectly. Time crystals require extremely low temperatures. But the room-operating time crystals can make it possible to create extremely small-size atom clocks that can revolutionize measurements.

Those atom clocks can measure time dilation near Earth with extremely high accuracy. That means they can use to adjust the GPS satellites against the time dilation that causes measurement errors.

But cheap and powerful atom clocks can also measure how energy affects time. The network of atom clocks can also send information about time. That information is needed to make a deeper understanding of the interesting and mysterious phenomenon called time.

The large-scale network of atom clocks can also measure things is time stable? Or is there some kind of differences in the time dilation? And maybe someday there is the possibility that those atom clocks can be used to answer the question. Is time the only thing that is connected to the material? Or is time connected with space around the object.

https://phys.org/news/2022-02-crystals-persist-indefinitely-room-temperature.html

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