Posted on 09/12/2016 5:02:41 PM PDT by dayglored
Microsoft researchers have teamed up with physicists from the University of California, Santa Barbara, to show how time crystals might be possible.
First proposed by Nobel-prize winning theoretical physicist Frank Wilczek, time crystals are hypothetical systems that spontaneously break time-translational symmetry (TTS) – a fundamental symmetry in physics. In plain language, they exhibit tiny movements without using energy.
Crystals have a rigid arrangement of atoms that break translational symmetry. Their structure is not symmetrical in space, unlike a sphere, which looks the same from all directions.
Time crystals break the symmetry of space and time. Wilczek considered a group of atoms in their ground state moving in perpetual circular motion, which is considered an impossible idea because ground states do not have enough energy to spontaneously move.
Dominic Else, co-author of the paper, published in Physical Review Letters and a physicist at UCSB, said that there was a “crucial difference” between explicit and spontaneous symmetry breaking.
"If a symmetry is broken explicitly, then the laws of nature do not have the symmetry any more; spontaneous symmetry breaking means that the laws of nature have a symmetry, but nature chooses a state that doesn't," Else told Phys.org.
For time crystals the laws of nature don’t change with time, but the time crystals themselves change as it chooses a ground-state motion which spontaneously breaks TTS.
The team of researchers have many rules for their hypothetical quantum time crystal systems, known as “Floquet-many-body-localized driven systems".
The Floquet time crystals must never reach thermal equilibrium and radiate heat or they would lose rotational energy. When the size of the system grows, the time it takes for TTS to decay into a time-translational independent state is infinite, so TTS is broken forever without violating the second law of thermodynamics.
"The significance of our work is two-fold: on one hand, it demonstrates that time-translation symmetry is not immune to being spontaneously broken," said co-author Bela Bauer, a researcher at Microsoft Station Q.
"On the other hand, it deepens our understanding that non-equilibrium systems can host many interesting states of matter that cannot exist in equilibrium systems," Bauer added.
Spontaneous symmetry breaking is commonly found in physics, the paper said.
“For almost every symmetry imaginable, there is a model whose ground state breaks it:crystals break the continuous translational and rotational symmetries of Coulomb interactions; magnetically ordered materials break time-reversal symmetry and spin symmetry, and superfluids break global gauge symmetry.”
But, no one has ever observed the breaking of TTS.
The researchers believe they can demonstrate this elusive property by using oscillating trapped ions or superconducting qubits to represent a floquet time crystal. The experiment would observe how the system evolves over time to see whether TTS broke spontaneously.
Space Guild Navigater ping
My brain is starting to smolder.
Sounds like they are trying to determine if there really is an arrow of time. Interesting.
Top spin or bottom spin?
I hear ya loud and clear. My undergrad degree is in Physics, but that was 1974, it's all a blur now... And largely obsolete too.
That's what happens when the CPU executes an HCF: "Halt and Catch Fire" Opcode...
My sentiments exactly!
You know what they say:
Time flies like an arrow... Fruit flies like a banana.
I feel a song coming on.
roswell
what the hell did I just read. I’ll have what they’re smoking
Kinds ... chewy, wasn't it?
> I’ll have what they’re smoking
Great idea.
Emmy Noether was unavailable for comment.
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