"Space-Time Crystal" --A 4-D Clock That Will Survive the Heat Death of the Universe
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September 24, 2012

"Space-Time Crystal" --A 4-D Clock That Will Survive the Heat Death of the Universe

 

           Cartlidge1

 

Imagine a four-dimensional crystal that has periodic structure in time as well as space. The crystal could be used as a clock that will keep perfect time forever, even after the heat-death of the universe. This is one of the “wow” factors behind a device known as a “space-time crystal.” Scientists would also have a new and more effective means by which to study how complex physical properties and behaviors emerge from the collective interactions of large numbers of individual particles, the so-called many-body problem of physics. A space-time crystal could also be used to study phenomena in the quantum world, such as entanglement, in which an action on one particle impacts another particle even if the two particles are separated by vast distances.

An international team of scientists led by researchers with the U.S. Department of Energy (DOE)’s Lawrence Berkeley National Laboratory (Berkeley Lab) has proposed the experimental design of a space-time crystal based on an electric-field ion trap and the Coulomb repulsion of particles that carry the same electrical charge.

“The electric field of the ion trap holds charged particles in place and Coulomb repulsion causes them to spontaneously form a spatial ring crystal,” says Xiang Zhang, a faculty scientist with Berkeley Lab’s Materials Sciences Division who led this research. Zhang holds the Ernest S. Kuh Endowed Chair Professor of Mechanical Engineering at the University of California (UC) Berkeley, where he also directs the Nano-scale Science and Engineering Center.“Under the application of a weak static magnetic field, this ring-shaped ion crystal will begin a rotation that will never stop. The persistent rotation of trapped ions produces temporal order, leading to the formation of a space-time crystal at the lowest quantum energy state.”

The proposed space-time crystal shows (a) periodic structures in both space and time with (b) ultracold ions rotating in one direction even at the lowest energy state. (courtesy of Xiang Zhang group). Because the space-time crystal is already at its lowest quantum energy state, its temporal order – or timekeeping – will theoretically persist even after the rest of our universe reaches entropy, thermodynamic equilibrium or “heat-death.”

The concept of a crystal that has discrete order in time was proposed earlier this year by Frank Wilczek, the Nobel-prize winning physicist at the Massachusetts Institute of Technology. While Wilczek mathematically proved that a time crystal can exist, how to physically realize such a time crystal was unclear. Zhang and his group, who have been working on issues with temporal order in a different system since September 2011, have come up with an experimental design to build a crystal that is discrete both in space and time – a space-time crystal. Papers on both of these proposals appear in the same issue of PRL (September 24, 2012).

Traditional crystals are 3D solid structures made up of atoms or molecules bonded together in an orderly and repeating pattern. Common examples are ice, salt and snowflakes. Crystallization takes place when heat is removed from a molecular system until it reaches its lower energy state. At a certain point of lower energy, continuous spatial symmetry breaks down and the crystal assumes discrete symmetry, meaning that instead of the structure being the same in all directions, it is the same in only a few directions.

“Great progress has been made over the last few decades in exploring the exciting physics of low-dimensional crystalline materials such as two-dimensional graphene, one-dimensional nanotubes, and zero-dimensional buckyballs,” says Tongcang Li, lead author of the PRL paper and a post-doc in Zhang’s research group. “The idea of creating a crystal with dimensions higher than that of conventional 3D crystals is an important conceptual breakthrough in physics and it is very exciting for us to be the first to devise a way to realize a space-time crystal.”

Just as a 3D crystal is configured at the lowest quantum energy state when continuous spatial symmetry is broken into discrete symmetry, so too is symmetry breaking expected to configure the temporal component of the space-time crystal. Under the scheme devised by Zhang and Li and their colleagues, a spatial ring of trapped ions in persistent rotation will periodically reproduce itself in time, forming a temporal analog of an ordinary spatial crystal. With a periodic structure in both space and time, the result is a space-time crystal.

“While a space-time crystal looks like a perpetual motion machine and may seem implausible at first glance,” Li says, “keep in mind that a superconductor or even a normal metal ring can support persistent electron currents in its quantum ground state under the right conditions. Of course, electrons in a metal lack spatial order and therefore can’t be used to make a space-time crystal.”

Li is quick to point out that their proposed space-time crystal is not a perpetual motion machine because being at the lowest quantum energy state, there is no energy output. However, there are a great many scientific studies for which a space-time crystal would be invaluable.

“The space-time crystal would be a many-body system in and of itself,” Li says. “As such, it could provide us with a new way to explore classic many-body questions physics question. For example, how does a space-time crystal emerge? How does time translation symmetry break? What are the quasi-particles in space-time crystals? What are the effects of defects on space-time crystals? Studying such questions will significantly advance our understanding of nature.”

Peng Zhang, another co-author and member of Zhang’s research group, notes that a space-time crystal might also be used to store and transfer quantum information across different rotational states in both space and time. Space-time crystals may also find analogues in other physical systems beyond trapped ions.

“These analogs could open doors to fundamentally new technologies and devices for variety of applications,” he says.*Xiang Zhang believes that it might even be possible now to make a space-time crystal using their scheme and state of the art ion traps. He and his group are actively seeking collaborators with the proper ion-trapping facilities and expertise.

“The main challenge will be to cool an ion ring to its ground state,” Xiang Zhang says. “This can be overcome in the near future with the development of ion trap technologies. As there has never been a space-time crystal before, most of its properties will be unknown and we will have to study them. Such studies should deepen our understandings of phase transitions and symmetry breaking.” 

The Daily Galaxy via Berkeley Labs

Image credit: physicsworld.com

Comments

Very interesting concept!!...........

Don't even know what the first sentence means. Help a brother out.

are you talking about a Tardis?

The first sentence means that the crystal would exist throughout time and space.

Chinese scientists are amazingly bright, we can already see they're going to be one of the main engines of science going forward. Here's hoping that China also changes for the better.

And who will be around to read it or set it?

''Thiotimoline to the Stars'' by Azimov. http://www.e-reading.org.ua/chapter.php/81709/43/Azimov_-_Buy_Jupiter_and_Other_Stories.html

Steve & Paradox: The first sentence means that the crystal repeats itself not only through all three dimensions of space, but also in the dimension of time. Further in the article, we see that this is achieved by setting up the crystal's electrical field in such a way that it continually cycles in an endless loop with no outside intervention.

According to the article, once such a crystal was created it would continue to exist forever, even past the heat death of the expanding universe. Presumably this is barring disruption from any outside force, which personally I think would be inevitable, though I could be presuming wrong.

Isn't that perpetual motion? If so I thought you could have it?

Martyn: that's addressed in the article.

thanks Bob. Missed that bit.


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