Time crystal (nonfiction): Difference between revisions

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* [https://en.wikipedia.org/wiki/Time_crystal Time crystal] @ Wikipedia
* [https://en.wikipedia.org/wiki/Time_crystal Time crystal] @ Wikipedia
* [http://archive.is/vUMuu World’s first time crystals cooked up using new recipe] @ New Scientist




[[Category:Nonfiction (nonfiction)]]
[[Category:Nonfiction (nonfiction)]]
[[Category:Physics (nonfiction)]]
[[Category:Physics (nonfiction)]]

Revision as of 17:18, 1 April 2017

A time crystal or space-time crystal is an open system in non-equilibrium with its environment that exhibits time translation symmetry breaking (TTSB). It is impossible for a time crystal to be in equilibrium with its environment.

Space-time crystals extend the ordinary three-dimensional symmetry seen in crystals to include the fourth dimension of time; a time crystal spontaneously breaks the symmetry of time translation. The crystal's pattern repeats not in space, but in time, which allows for the crystal to be in perpetual motion.

Time crystals are closely related to the concepts of zero-point energy and the dynamical Casimir effect.

Time crystals are thought to exhibit topological order, an emergent phenomenon, in which nonlocal correlations encoded in the whole wave-function of a system allow for fault tolerance against perturbations, thus allowing quantum states to stabilize against decoherence effects that usually limit their useful lifetime. Preventing decoherence has a wide range of implications: The efficiency of some information theory and quantum thermodynamic tasks may be enhanced greatly when using quantum correlated states.

It also is thought that time crystals could give deeper understanding of the theory of time.

Symmetries are of prime importance in physics and are closely related to the hypothesis that certain physical quantities are only relative and unobservable.

Because a time crystal is a driven (i.e. open) quantum system that is in perpetual motion, it does not violate the laws of thermodynamics. A time crystal does not produce work and it cannot serve as a perpetual energy storage, although it rotates perpetually.

The idea of a time crystal was first put forward by Nobel laureate and MIT professor Frank Wilczek in 2012.

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