Are time crystals just a mathematical curiosity, or could they actually physically exist? Physicists have been debating this question since 2012, when Nobel laureate Frank Wilczek first proposed the idea of time crystals. He argued that these hypothetical objects can exhibit periodic motion, such as moving in a circular orbit, in their state of lowest energy, or their "ground state." Theoretically, objects in their ground states don't have enough energy to move at all.
In the years since, other physicists have proposed various arguments for why the physical existence of time crystals is impossible—and most physicists do seem to think that time crystals are physically impossible because of their odd properties. Even though time crystals couldn't be used to generate useful energy (since disturbing them makes them stop moving), and don't violate the second law of thermodynamics, they do violate a fundamental symmetry of the laws of physics.
However, now in a new paper published in Physical Review Letters, physicists from the University of California, Santa Barbara (UCSB) and Microsoft Station Q (a Microsoft research lab located on the UCSB campus) have demonstrated that it may be possible for time crystals to physically exist.
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According to the physicists, it should be possible to perform an experiment to observe time-translation symmetry breaking by using a large system of trapped atoms, trapped ions, or superconducting qubits to fabricate a time crystal, and then measure how these systems evolve over time. The scientists predict that the systems will exhibit the periodic, oscillating motion that is characteristic of time crystals and indicative of spontaneously broken time-translation symmetry.
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Berkeley News reports on a Jan. 18th paper about time crystals:
If crystals have an atomic structure that repeats in space, like the carbon lattice of a diamond, why can't crystals also have a structure that repeats in time? That is, a time crystal? In a paper published online last week in the journal Physical Review Letters, the UC Berkeley assistant professor of physics describes exactly how to make and measure the properties of such a crystal, and even predicts what the various phases surrounding the time crystal should be — akin to the liquid and gas phases of ice.
This is not mere speculation. Two groups followed [Norman] Yao's blueprint and have already created the first-ever time crystals. The groups at the University of Maryland and Harvard University reported their successes, using two totally different setups, in papers posted online last year, and have submitted the results for publication. Yao is a co-author on both papers.
Time crystals repeat in time because they are kicked periodically, sort of like tapping Jell-O repeatedly to get it to jiggle, Yao said. The big breakthrough, he argues, is less that these particular crystals repeat in time than that they are the first of a large class of new materials that are intrinsically out of equilibrium, unable to settle down to the motionless equilibrium of, for example, a diamond or ruby. "This is a new phase of matter, period, but it is also really cool because it is one of the first examples of non-equilibrium matter," Yao said. "For the last half-century, we have been exploring equilibrium matter, like metals and insulators. We are just now starting to explore a whole new landscape of non-equilibrium matter."
Discrete Time Crystals: Rigidity, Criticality, and Realizations (DOI: 10.1103/PhysRevLett.118.030401) (DX)
Viewpoint: How to Create a Time Crystal
Observation of a Discrete Time Crystal
Previously:
Blueprint for a Time Crystal
Time Crystals Might Exist After All
(Score: -1, Offtopic) by Anonymous Coward on Tuesday September 13 2016, @08:40PM
https://lgdb.org/game/chaosesque-anthology [lgdb.org]
Has reached release 93. Over 100 weapons, city generation, buildable buildings (like RTS) and furnishings, spell casting, medeval weaps, futuristic weaps, modern weaps, foliage system, nukes, etc etc. Thoughts?
Took 10 time.
(Score: 3, Funny) by Anonymous Coward on Tuesday September 13 2016, @08:52PM
Beyond the time cube, which is shaped like a sodium chorlide crystal, and worthy of 4 24 hour days per side (except the tops and bottom since the cube isn't sideways like that) I have to argue with the comment "The scientists predict that the systems will exhibit the periodic, oscillating motion that is characteristic of time crystals and indicative of spontaneously broken time-translation symmetry."
If they do not know how it will look, how can they claim to know what the exhibited characteristics will be to know to look for them?
They'll look for what they hope to find (the prediction) but can't state that something *is* a characteristic if they have yet to encounter one to measure such characteristics from.
(Score: 3, Insightful) by jdavidb on Tuesday September 13 2016, @09:10PM
ⓋⒶ☮✝🕊 Secession is the right of all sentient beings
(Score: 3, Funny) by edIII on Wednesday September 14 2016, @02:56AM
If you merge Time Cube and Flat Earth together, I think it actually makes more sense than either one alone.
Technically, lunchtime is at any moment. It's just a wave function.
(Score: 2) by jdavidb on Wednesday September 14 2016, @03:36PM
ⓋⒶ☮✝🕊 Secession is the right of all sentient beings
(Score: 0) by Anonymous Coward on Wednesday September 14 2016, @03:33PM
I hope that site never goes down. It should, now that I think about it--be hosted on all four corners of the globe, as a sort of poetic validation for the time cube itself.
(Score: 0) by Anonymous Coward on Wednesday September 14 2016, @03:49PM
$ dig timecube.com
; <<>> DiG 9.10.3-P4 <<>> timecube.com
;; global options: +cmd
;; Got answer:
;; ->>HEADER<<- opcode: QUERY, status: NXDOMAIN, id: 20799
;; flags: qr rd ra; QUERY: 1, ANSWER: 0, AUTHORITY: 1, ADDITIONAL: 1
Noooooooooooooo!
(Score: 1, Insightful) by Anonymous Coward on Tuesday September 13 2016, @09:17PM
You go where the physics takes you. For instance, back in the day you could take the Standard Model and say "the physics of this model says there should be a particle here with such-and-such properties". If you find it, it tells you something, and if you don't, well, that tells you something too. But you're starting with a physical model and not just making shit up.
(Score: 1, Interesting) by Anonymous Coward on Tuesday September 13 2016, @10:02PM
I am not a physicist, so I'm speaking purely as a layman. However, this doesn't pass the "sniff" test to me, much like perpetual motion machines.
I'm prepared to believe that such objects in perpetual motion exist. However, assuming they do and their lowest energy state is one of motion, how would a person be able to observe it? For this object to be observed, it would need to interact with the general universe in some way (emitting photons, gravity waves, transferring momentum, etc)... and that would expend energy. Assuming Newton's 3 laws of motion are true (this is a big assumption, especially at the quantum level), than that would necessarily impart energy on the thing being acted upon, which would lower the energy state of the crystal and contradict the initial assumption.
Can a physicist or mathematician cut past the jargon and say whether this has any more plausibility than the countless patents for perpetual motion machines the patent office rejects without even bothering to read them?
(Score: 2) by turgid on Tuesday September 13 2016, @10:08PM
Could you extract energy from it? If it's in "the ground state" I doubt it (it can't physically move to a lower-energy state), therefore, you can't really claim it to be perpetual motion. However, back when I made a ham-fisted attempt at trying to learn some physics, I think stuff in the ground state was always in motion. Absolute Zero is physically impossible to achieve. It's just a theoretical concept. So yes, it sounds like codswallop.
I refuse to engage in a battle of wits with an unarmed opponent [wikipedia.org].
(Score: 1, Insightful) by Anonymous Coward on Wednesday September 14 2016, @02:22AM
Perpetual motion is kinda a misnomer. A body in motion stays in motion while one at rest stays at rest (unless acted upon by an external force).
So, in a sense, the earth goes around the sun perpetually (kinda). And the moon goes around the earth perpetually. The rovers we launched in space are perpetually moving. Comets move perpetually.
When most people refer to perpetual motion what they mean is perpetual energy production. Something that can spontaneously produce (infinite sums of) energy perpetually.
(Score: 0) by Anonymous Coward on Wednesday September 14 2016, @01:23PM
By observing an observable that changes during that motion.
The interaction energy can be provided by the measurement device. Obviously the ground state won't emit energy on its own, otherwise it wouldn't be the ground state.
And yes, the measurement would take it out of the ground state. Without having read the article, I'd expect them to prepare those states many times, and then measure after a different duration for different equally-prepared systems. If they see a periodicity in their measurement data, they know they have a periodic moving state.
(Score: 0) by Anonymous Coward on Tuesday September 13 2016, @10:52PM
a Microsoft research lab
Hahahahahahahahahahah hahahahahah hahahahahahahahahahahaha Microsoft Research lab hahahahahahah hahahaha
Hint: Microsoft buys other companies for their research. Then it ignores it, and does whatever the current CEO feels like. Which usually results in a flop. Microsoft is a long history of flop after flop after flop but hey, when you have 90+% market share and there's no other similar alternative, you can get away with it.
(Score: 5, Funny) by Ken on Tuesday September 13 2016, @11:05PM
"...history of flop after flop after flop "
Isn't that the idea? The most flops? I mean some things are measured in teraflops, petaflops, etc...
(Score: 0) by Anonymous Coward on Tuesday September 13 2016, @11:18PM
TIL Microsoft never published info on their ultra-computer that crushes the puny supercomputers.
(Score: 0) by Anonymous Coward on Wednesday September 14 2016, @01:15PM
Of course not. They can't tell the public that the only way they found to get Windows run at acceptable speed is to secretly install a miniature ultra-computer inside your PC. ;-)
(Score: 3, Informative) by TheRaven on Wednesday September 14 2016, @10:10AM
sudo mod me up
(Score: 0) by Anonymous Coward on Monday September 19 2016, @06:39AM
And, much as I like to rag on MS, I've actually seen some good product come out of Microsoft's Research arm.
(Score: 2) by Some call me Tim on Wednesday September 14 2016, @04:21AM
This article was brought to you by the sugar industry!
Questioning science is how you do science!