Impossible Time Crystal Breakthrough - Explained
Ғылым және технология
Imagine a crystal that repeated in time instead of space. If that sounds absurd, then you're in the company of many scientists.
Recently, researchers have built one, smashed previous records and shown how this science fiction sounding concept can be brought into reality.
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#science #breakthrough #physics #timecrystal
Chapters
00:00 Breakthrough In Time Crystals
00:54 Understanding Time Crystals
2:10 Frank Wilzcek & His Proposal
3:59 Gerrit Flim & Superconducting Rings
6:02 Fixing The 'No-Go Theorem'
9:33 Explaining The Time Crystal Breakthrough
14:17 Measuring A Time Crystal
19:00 The Results
20:25 The Future Of Time Crystals
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There's an online game called Runescape. You can click to follow another player, and you'll try to stay behind them automatically. They can click to follow you and the two of you end up 'dancing' in a kind of push-pull circle. This experiment reminded me of that.
@idontwantahandlethough
2 ай бұрын
Lolol best analogy I've heard in a long time
@jonaswox
2 ай бұрын
almost any physical system is a "dance" :) I like you analogy, but I would love for you to realise that this "dance" is all around you, all the time.
@jonaswox
2 ай бұрын
very interesting example is resonant dynamical systems. That means systems where the "dancing" seems to be coordinated somehow, and the system becomes stable in the same configuration always - no matter the input. For example the gaps in saturns rings are due to resonances between its moons. The resonances are stable because whenever you are away from the equilibrium asymmetric force puls you towards the direction of equilibrium. When you experience this in nature it has a tendency to be awe inspiring.
@robbiekavanagh2802
2 ай бұрын
You can do this in Kenshi too
@professionaldrum2313
2 ай бұрын
Oh now I understand!
I agree with what you said near the end: The engineering to construct and conduct the experiment is wonderful to behold. However, the significance of what the results really mean is lost on me. Keep it up Ben. Love these videos. 👍 A sign of a sequel video to explain more would definitely grab my attention. 🙂
@elongatedmusk3132
Ай бұрын
Yeah I never heard of that
I was quite out of my depth but this explanation was a perfect balance of simplifying ... but not too much.
Your explanation was really well done, I was able to understand what you were communicating. Much appreciated, seriously!
You had me at full frontal, and I stayed for the physics. This is incredibly well presented.
An excellent video. The graphics were amazing and helped me understand much more than I expected to on seeing the title. Your videos are a highlight of any evening of watching information on advances in science.
2:15 He carries 5 pens in his pen pocket. Now THAT'S impressive.
@jessen00001
2 ай бұрын
The Things people are seeing. Impressive
@jessen00001
2 ай бұрын
N.B And liking, that's impressive
@shishkebaba
2 ай бұрын
No it's like the equivalent of carrying 5 handguns, it's insane
@gcewing
2 ай бұрын
It's a pen crystal.
I find your presentation is extremely interesting and I love it more than just fascinating, witty and occasionally crystals can just bring us together.
best description I've seen of this time crystal experiment so far. really really well done and so fascinating. makes me want to try to design experiments!
You were way off thinking I was smart enough to understand any of this.
@LowHangingFruitForest
Ай бұрын
I can’t find anyone that can explain it to me LOL
@amanawolf9166
Ай бұрын
Same. My background is in Biotechnology and chemistry. This goes way over my head.
@chaselewis3354
Ай бұрын
Guy is speaking at a level 145 IQ and above 😂
@xrpmoonwolf
Ай бұрын
After 1 min of watching I get what you guys are saying 🤣 just look at it like the rosseta stone of time instead of Egyptian language. It just gives us a better understand on how to dephicer the language of time :P. Coming from a construction worker you gotta do better Mr biotech
@nojakthegemlad
Ай бұрын
If you can complete Cat Mario you can do anything
That zoom in on the crystal in a watch was a piece of information that made my brain happy to learn. Something I’ve thought about my whole life but never enough to investigate it.
I worked at a place that measured Birefringence using polarized light. I was able to keep up with all of your description! I guess I'm chuffed over that!
The way the oscillations form the M shape reminds me of the way T-handles process in space when spun.
I understood next to none of that but enjoyed it immensely.I look forward to being equally baffled by your future work.Bravo Dr.Ben
@CarpeUniversum
2 ай бұрын
It's like listening to TV in a language I've only been studying for about 6 weeks. I hear words I recognize!
There are SOOOO many "energies", pretty much all on a quantum-effect scale, that it just SEEMS like there could be something going on that we do not fully understand yet. It could be an unknown energy transfer or effect, minute energy loss in one of the umteen inputs, an uncharacterized quantum effect, etc. It is still INCREDIBLYinteresting. And as you stated, the technical aspects of the experiment are astounding.
@anoirbentanfous
2 ай бұрын
Yes, it is like a cascade of energies...
@KinyoHQ
Ай бұрын
Agree these are more like quantum crystals
@KinyoHQ
Ай бұрын
Agree these are more like quantum crystals
brilliant video. One of my favourites. This is part of an exploration of time as a dimension which has had a few confirmations from real experiments recently. It shuldn't be surprising but it is. I wonder where it leads.
Fascinating, thank you
This work shows marvelous precision and impressive mathematical modeling, but given that it’s powered, I cannot fathom what the point is. I was, at the very least, expecting some kind of delocalization over time, yet this instead looks like an emergent _and powered_ oscillation fully embedded in classical spacetime - that is, a vastly more difficult version of the piezoelectric quartz crystal you mentioned, but still fundamentally just that: A powered oscillation. Is it because the oscillators are atomic in scale and plentiful? If so, that’s almost a matter of definition. Are opals crystals? It depends on whether you accept the repetition of units larger than atoms. The earlier record holder sounded even odder since it sure sounded like it was using mundane beat frequencies in fancy-math clothing to drive the system into repetition. What I least understand is this insistence on using power. After all, one pretty good way to understand how liquid helium stays liquid is that the mechanical oscillations created by quantum uncertainty are sufficient to overcome the very weak bonding forced between helium atoms. Such quantum oscillations don’t need power to endure indefinitely. If such persistent, unpowered, uncertainty-based relative atomic motions are real enough to keep liquid helium, why can’t they be real enough to engage in _unpowered_ repeating quantum oscillations over time? For example, when liquid helium is enticed to crystallize using pressure, has anyone checked to make sure that the same virtual oscillations that formerly kept the helium liquid in space have not simultaneously crystallized in time, producing a true, unpowered Wilczek time crystal? Has anyone thought to look?
@ticthak
2 ай бұрын
The math would posit the existence of stable time crystals with absolutely no input energy (the oscillation is inherent), but how is it possible to detect and observe such a structure without immediately inducing oscillation, or modulating this "natural" oscillation?
@TerryBollinger
2 ай бұрын
@@ticthak that is a very good question, for which I can only make this observation: Since the existence of liquid helium proves that virtual _spatial_ oscillations have profoundly visible and experimentally testable consequences, I can't see any easy reason why the time version of such oscillations in pressure crystallized helium might not also have fully physically and testable implications. I have no idea what those implications would be. For years, I have naively assumed that that's what time crystal research was all about. (Me brain different think?) Thus it came as a sincere surprise to me to find out that this fundamentally sound speculation has devolved mostly into a game of seeing how well you can hide the power source for driving subtle but quite classical oscillations. :)
@bgsmember3650
2 ай бұрын
In helium's liquid state, ambient temperature then becomes a source of input energy, perhaps dirtying your experiment.
@TerryBollinger
2 ай бұрын
@bgsmember3650 it’s a good point to consider, but a good reason to think that is not the case is that superfluid liquid helium is a type of Bose condensate - a state of matter in which all atoms behave as if they are part of a single quantum state. This collective wave function is so real that rotating superfluid results in the formation of rotational singularities, called quantum vortices, that have no analog in classical mechanics. The other point is that no difference in how close you get to absolute zero on a log scale - one-thousandth of a degree, one-millionth of a degree, one-trillionth of a degree - liquid helium stays liquid. It’s not an effect that depends on heat at any scale
@NagiSeishirou-il2rr
2 ай бұрын
@@bgsmember3650isn't that violating thermodynamics law? As in no work can be driven from an external reservoir indefinitely? You'd be constantly decreasing the universes entropy then?
this is so well explained that i almost understood it. great video
This is well explained and I’m excited for future developments
Awesome ❤🎉 Thanks for this great content 😊
Good job on the explanation. Seems to relate to entanglement and measurement as described by Quanta magazine's article "physicists-observe-unobservable-quantum-phase-transition-20230911"
Finally I understand what the whole fuzz is about. Thank you!
The extremely long period of oscillation is not too surprising to me. It is common for precession effects to multiply periods of oscillation by several orders of magnitude.
@SeekingTheLoveThatGodMeans7648
2 ай бұрын
Could it be acting like a countdown device? Would this period change if the frequency of the energizing light were also changed?
@user-xj8wy4uu1q
8 күн бұрын
@@SeekingTheLoveThatGodMeans7648hmm
Great video. Time crystals are a very fun concept.
Okay well you just blew my mind. I am a Gold Miner but I specialize in a very specific type of gold and that is crystallized gold. I just learned more from this video than ever on how to now explain to people the difference between crystallized gold and crystalline gold. I just subscribed to your channel I'm looking forward to seeing more of your content
Hang on, though, if your pump laser is circularly polarised doesn't that mean that it's not constant? It's energy may be constant, and its wavelength, but the polarisation could be said to be oscillating, no?
@WildEngineering
2 ай бұрын
linear polarized light is actually a superposition of circular polarized light. I think circular is the default state so it feels less cheaty imo
@uazuazu
2 ай бұрын
It's oscillating at the frequency of the light, just the same as linearly polarized light does. The circularly polarised light IS constant. If it stopped oscillating it wouldn't be light any more. That oscillation frequency is not related to the oscillation frequency of the time crystal system, as I understood it. It just causes the alignment of the electron spins. The electron spin alignment varies really slowly by comparison (like 7 orders of magnitude slower).
@shanent5793
2 ай бұрын
Circularly polarized light has a constant 90° phase difference between the horizontal and vertical polarization components. If the polarization were oscillating then the phase difference would also be oscillating, so light with oscillating polarization is not circularly polarized.
@SeekingTheLoveThatGodMeans7648
2 ай бұрын
@@uazuazu That's a lot of difference between the frequency of the light and the observed oscillation of course. Quite a curious phenomenon.
@thethree60five
2 ай бұрын
@uazuazu Well said, but if anisotropic movement of a mineral as shown by an emerald that can create an AM or FM based wave as a bias to compensate for system loss in a perpetual system, as long as this phased bias has energy provided, they have the in effect a 'perpetual motion machine' by using dark energy by quantumality to compensate for inherent system loss. Satisfying accepted physical laws of matter. Contemplatively... Should one find a way to use quantum physicality laws to provide this from the quantum field into the system as said bias, far beyond perpetually of the time chrystal system is possible. It could act as an energy convertor at a quantum level. Which would be a Heather Thomas level full frontal.😊 As Dr. Miles mentions the concept of subharmonics created, this could possibly be thought of as synchronicities when related to time crystal's maximized sycronnistic output which could be rectified for 'time-energy' output by these 'time harmonies' without 'melting', a collapse of the sustained wave function harmonic structure... of synchronicities. Perception... becomes the measurement.
I'm struggling. I thought a time crystal oscilated independent of an input ? Isn't a constant laser input cheating & why is reducibg the temperature not an introduction of energy, albeit negative. Just asking ! (I'm not in any way a scientist).
@Kevin_Street
2 ай бұрын
I think it's impossible for anything to change without some change in the energy of the system. That's why he said time crystals get close to (but are not) perpetual motion machines. The oscillation is powered by the laser, but when the input is constant it shows that the oscillation isn't caused by the laser. It's an inherent property of the crystal itself, using some of the beam energy to oscillate in time. Reducing the temperature is setting the stage for the experiment. It happens before the experiment begins and so long as that temperature is held constant, isn't a factor in what's occurring.
@Armadous
2 ай бұрын
This was also not obvious to me. It seems uninteresting for the purpose of a time crystal if the crystal oscillates as a function of the properties of the laser.
@bgsmember3650
2 ай бұрын
Dude who made the video is spot on. With a quartz watch, an electric circuit is the source of occillation and the crystal itself merely acts as resonator (to accentuate the desired part of the frequency). From Wiki.. "The electronic circuit is an oscillator, an amplifier whose output passes through the quartz resonator. The resonator acts as an electronic filter, eliminating all but the single frequency of interest." With the time crystral experiment, the laser input doesn't occillate. The source of the occillation is now the crystal's atomic structure itself, which is something different and new.@@Armadous
@Armadous
2 ай бұрын
@@bgsmember3650I guess as a layperson, it's hard to understand that a laser isn't an oscillation source when everything about it is in terms of wavelengths of light. It doesn't follow in my mind that an energy source with a frequency imparts no frequency on the crystal.
@lemonstealinghorsdoeuvre
Ай бұрын
You guys pretty much get it. It's to do with alignment for the initial laser and measuring for the second laser. The magnet initially locks the crystal into alignment, giving a universal starting position that the laser then gives an equal constant push to. Imagine you have waterwheel mills all along a riverbank, but there are eddie's and still points. Each of the wheels have to have slightly different angles to best utilize the flow now imagine you lift all the mills up and align the axis of each parallel to each other. That's the magnet now imagine you no longer have the river, but a torrent of water comes at a constant speed in a constant direction, that's the laser. If the mills are all exactly similar, they all will react in the same way. When the flood is done, it's not gradual, it's abrupt and leaves the mills exactly the same. The difference between the expectation and the time crystal is that there is no friction to degrade the millwheels, so the pattern of the wheels repeat until an outward force changes them. Another way to look at it is the electron cloud is random. Then a magnet pulls the electron down with a thread and the resistance to return to motion is a rubber band. The laser comes and cuts all the threads exactly the same, making the electrons all bounce around on that rubber band exactly the same way with a repeated time period before it bounces the exact direction off the exact point that was the starting point. That's the oscillation time.
crystal clear explanation, excellent job, great video, engaging performance wow!
The way you describe stuff is awesome. Thank you for this and the rick and morty reference.
Great video. Really enjoyed the deep dive into the physics, very cool. Thanks!
Thanks for very clear explanation. I have seen couple of videos on the experiment. But I did not understand how this experiment was conducted and how do we know that time Crystals was produced. Your gives video gives a “Crystal” clear explanation. Thanks 🙏
Great coverage, I also admitted defeat to the perpetual energy machine during my magnetic v-gate days. The idea of creating a constant imbalance is just not possible, they all eventually come to stand still.
Great video. I don't know if the experiment was accurate, but your video really explained what time crystals are and how hard it is to measure one.
Thanks for your breakdown!
Retired motorcycle mechanic, the best part for me was you didn't go into the mathematical side of things which I couldn't understand in school and still don't. For some reason, I'm 'math dyslexic' as soon as a formula appears (at least anything more complicates than Pi ) It may be because I've never needed to work with anything but cylinder capacity and events when building race motors ('pulse tuning intake/exhaust) I'll watch a few more of your video's.
@justinvt
2 ай бұрын
Dyscalculia
the singing technique is called kargyraa, and is really cool. for a good english language introduction, the documentary Genghis Blues follows a blind American singer named Paul Pena all the way to Tuva to compete in a throat singing competition. one of my favorite movies ever.
@lemonstealinghorsdoeuvre
Ай бұрын
Thumbs up is not enough to show my agreement. The movie is amazing, although that split second clip here shows more about how it's done than Paul groping Kongar's mouth lol
Mind-boggling, truly!
now i’m curious about future attempts to explain this, especially if simulations could be pared down to a small number of elements for an inaccurate model but a very interesting oscillator. as an audio tech person with an interest in feedback systems, i’m very curious how this works
Really good video, good job! 👍
This is interesting but is it odd to have periodic responses to non-periodic inputs? A steady breeze will cause a tree branch to wave back and forth; rubbing your wetted thumb along the rim of a wine glass will cause it to ring.
@lemonstealinghorsdoeuvre
Ай бұрын
The thumb is an oscillating input, it slips and catches randomly but repeated slipping hits a specific time that builds on the peak of the wave in a constant pattern that resonate with the glass. A constant input would not resonate. Those leaves don't all dance in the exact same way when the wind hits a tree, it's not a repeated constant pattern
Great explanation!
layperson here with what might be a dumb question. It seems like one of the criteria for being a 'time crystal' is that the oscillation needs to come from the crystal itself. This is why we are not impressed by quarts because its oscillation is 'downstream' of the input power due to the piezoelectric effect In this experiment, it seems like all the observed oscillation is 'downstream' of the oscillating polarization from the input laser. Is the crystal not just applying some elaborate transformation to an existing oscillation? It still seems like the primary oscillation still comes from the laser and could be used directly without the crystal for timekeeping
@lemonstealinghorsdoeuvre
Ай бұрын
The polarity shifts in a repeated pattern over time, causing the output on the laser used for measuring to oscillate in the same pattern. Normally, light is only shifted in polarity, it doesn't have an oscillating shift. If you mean the initial input laser, if you remember, the magnetic field held the alignment in an initial state, then that laser gave the alignment a uniform direction with a uniform force applied throughout.
Great video. Thanks for making, and you just got a new subscriber here. It does leave me with some basic undergrad level questions: 1. I don't understand why such an "impossible time crystal" is considered to structurally vary in time rather than as just exhibiting a new type of very low frequency strain energy vibration induced by much higher frequency inputs. Newly discovered perhaps, but why is anybody calling it "impossible"? It's not like any atoms are changing relative positions within the crystal lattice over time is it? just spin states. 2. I don't understand how any input energy can be said to be non-oscillating. Splitting and/or combining polarized light into orthogonal polarized beams in which the total input power is not oscillating does not eliminate the oscillating nature of the input energy except perhaps semantically. All light is oscillating by the nature of having a wavelength, except perhaps a pulse shorter than it's own wavelength, which I'm not sure is even a thing. One can certainly induce harmonic vibration with a much higher frequency driving input. How can one say this "time crystal" oscillation is induced by a non-oscillating input? 3. Other than being a newly recognized mode of surprisingly slow oscillation that is very hard to understand or measure, are the oscillations of an "impossible time crystal" fundamentally different from vibrations in strain energy of less exotic materials? The slow oscillations are certainly amazing and weird and the engineering of the experimental apparatus is very clever, but I don't see how the results reveal anything fundamentally new to physics. A ringing bell is oscillating in density over time. Any spring material that vibrates experiences changes in density over time while vibrating, where strain energy and inertial forces are in a feedback loop which repeats at a frequency determined by the harmonic properties of the dynamic system that the spring material is a part of. Analogously, can it be said that vibrations of these "time crystals" is strain energy and lattice-spin energy in a feedback loop which repeats at a frequency determined by the dynamic lattice spin harmonics of the crystal lattice? In other words, can it be said that the equilibrium bond spacing between atoms act like springs and the spin state feedback effects act like dampers with extremely low energy losses, resulting in long duration oscillation at the observed frequency? Thanks in advance to anyone who even half-way replies to any of that.
great vid dude , thank you for sharing ; what a time to be a crystal indeed XD
What a great explanation. I ALMOST understood. Q on the subtraction step - if the measurement by the probing laser is based on one direction of polarization being slowed down, won’t that offset the ambient noise of the two polarizations in time enough to yield a false result by the subtraction?
Whoever came up with these experiments is a mind blowing genius
Great stuff! I might learn something today.. ⏳️❄️👌🏻
Crystal substrate constraining the stable infrastructure, might be requiring a lighter laser and a heavier refractory to level the impedance without phase interference. Its like we have to hear it more quietly so we don't disturb it.
I love that the profoundness of an experiment, theory, or creation is typically never understood until long after the discovery is made. There is plenty of math that models some physical phenomenon that we have no knowledge of, and it's application is completely life altering. But at the end of the day, we have to connect the dots to make it all work. One day, there will exist a use case for time crystals that we couldn't imagine life without. Now, we can hardly imagine what a time crystal could be used for. I vote for creating a power supply from time crystals. That way it will continue to provide power for all time 😉
Dithering comes to mind, a technique used in audio engineering that adds noise to gain even more clarity, kind of like inverted noise ending up cancelling noise by its random nature. In terms of observation maybe this technique could lessen the need for adding another laser to the system, and rather treating the output..? Also, the thing about measuring draining energy from the system was really cleverly counteracted by measuring spillover from what drives the system!
Very interesting as always, Dr. Ben. And a hat-tip to your animator who seemed to emphasize that the time crystal graph looked like batman, or maybe that was just me.
Satisfyingly just over my head. I appreciate that you keep the most interesting science in the conversation, even for something with little basis for intuition like time crystals. Clear you are a bonefide expert on this subject, and as a good communicator, it is a true public service that you share your expertise with your audience.
I'd love to see you do a video on polariton condensates and how they can trap light within the condensate.
Put one of those outside of our gravity well and see how it operates. Put it up to half the speed of light on a spaceship and compare it after the fact, the one left behind. Would be super interested to know the readings of something like that moving that relatively fast
I'll need to parse the paper and refs for a while, but the first question that popped up in my mind was whether or how the periodicity of the effect depends on crystal dimensions. This is the kind of thing that could be useless, shove caesium off its second defining throne, or clue us in to some field effects that we need new math for. But I think they could have used more lasers.
So obviously the M shaped waveform is composed of a number of different frequencies. It would have been interesting if you ran that through an FFT to see what the dominant frequencies are and what is the source of them.
@SeekingTheLoveThatGodMeans7648
2 ай бұрын
To the Bat-oscillator, Robin
@user-uw3ws5qe4w
2 ай бұрын
In a similar conecpt to what you just stated .. I used to work as an electronics engineer with a really smart guy who was leaving engineering to become a doctor. I asked him what his ambitions were and said to him how fantastic it would be if he could apply his real time signal analysis and phase plane knowledge on systems to things like the heart beats of cardiac patients to predict heart attacks in advance etc etc He replied that he just wanted to be a GP ...!!!!! My brain exploded at that point and i was think WTF ????
If I heard correctly, we use a power source to start it up and if it keeps oscillating forever, after we cut the power, it's a time crystal. Eventhough it only oscillates for less than a second(not forever). And, we can only measure it by firing a laser at it. Isn't that adding power to the system to keep the oscillation going?
As you have rightly said in such system of experiments a harmonic motion could have multiple source and n- harmonic even from sea shore 😀. Seeing another dimension as desired under a magnetic polarized angle is good zeeMann factor . If we take for simplicity that an LS couple nano crystal have a spilling over time sequence, as desired for long time crystal ,yet to established. But you and the team have made a good efforts to have a time crystal . Concept to realisation is a significant saga to tell. Having little exposure to the lab and subjects open a window of smile for me.
The crystal oscillation chart you showed looked more like EM waves of a heartbeat than a sine wave.
We leave the details of making this actually useful as an exercise for the reader... Good talk
@dabartos4713
2 ай бұрын
If nothing else the science fiction people will have things to write about.
Oh my lord, this is something we need.
Interesting.. definitely interesting, thank you for going to the effort of explaining this.. as an Radio R&D engineer, I'm strugging to FULLY grasp this (the experiment I could follow, nice trick cancelling out the systematic errors)... I need to read up on spin... again, I assume we're talking about quantum mechanical spin here.. which is really weird. Uses, not enough data to tell yet.. at least not for timing purposes, timing is all about size, power and accuracy.. how could one interface to such a crystal?.. it's all very well that it oscillates.. but to keep track of those oscillations one needs to interface to it constantly and that means power transfer, one way or the other, which sort of defeats the object.. it feels like this in an effect that would be useful to some edge of physics type application, but that's beyond my pay grade.
@shanent5793
2 ай бұрын
It's observed through the phase shift of the probe laser, which in principle isn't transferring any power. For example you can tell the difference between glass and fluorite by observing the polarization and without having to melt them with the light source
@edwardhunia6315
2 ай бұрын
A time crystal is a perpetual motion system... Look: I know the early history of the qtc quantum time crystal...Back in 2010 in moodle chat operating for student lecturer discussion, a student raised the point that the earth sun system is a perpetual motion system because work must be done to shift the planet to the perihelion since there is a change in potential energy due to a radial change (Wilczek may have been there or caught wind of the discussion). Wilczek 's work on qtc devoloped a ground state ring of moving particles. I believe his work requires a theoretical partical with attractive properties to form his infered coalescing into the state ground state ring of moing particles. I think the work was lazy as it doesn't demonstrate how the forces do indeed coalesce into a ring with the stated ground state function. Tongcang Li et al proposed a more realistic model but it too relied on a radial state change which was detectable through their tagged particle -(I think they called it). around 2015 I think was the first proposed qtc model that flipped magnetic state... I stopped following developments at this stage due to shifting homes to Rotavagas.
When language is used to describe behavior of matter on the far ends of the scale, the deficiencies may become a hindrance to our understanding. Language of math just appears more pure, but again is limited because it leaves little room for imagination. Crazy how we come up with new concepts to mark new territories of exploration. Great Video !!
So fascinating :)
@DrBenMiles
2 ай бұрын
👋
Thanks for this accessible explanation :) how would a time crystal react in an MRI machine as it induce changes in the spin and measure the damping of it? why do we have to use light instead of radio frequency to affect on a electromagnetic level those time crystal?
Dude, this explanation is 🔥
Hi, can I get the reference for the paper? I want to read through it a bit more. Thanks
Thank you! Finally! Someone who actually knows what a time crystal is!
@Critical-Thinker895
2 ай бұрын
Then explain to me why a time crystal is needed.
@GrabnarMyers
29 күн бұрын
Yeah i wanna know why I time crystal is needed too
Ben if that is your name :), newbe for your channel. Thank you greatly for expressing all the detail in this video. I very much didn't quite understand the whole thing but it matters for the quantum field and all but i think they are now mass producing these things because of what they can do as well. Its very interesting stuff.
Okay, so I just watched Dr. Miles' video about creating the first active deflector shield, and then I watched this one about time crystals. So it seems obvious to this layman that one practical application of time crystals would be in the creation of a practical deflector shield. Just don't ask me how the two could be used together... 🤔 Anyway, I really appreciate Dr. Miles' ability to explain complex subjects.
Pretty cool to be able to measure something that cant be seen. Being able to see fields changing without actually seeing them.
KLINGON TIME CRYSTALS! On Boreth. Where Worf went in TNG but never mentioned! Great writing.
G. Flim only demonstrated he could maintain a magnetic field in He(l). In fact when the SC loop is closed, any current stops and only a magnetic field remains while temperature is low. That field can induce currents in a Amp meter, a connected circuit, etc, and pull the magnetized needle of the compass, just that.
You need basicly near frictionless state to do it if not mistaken? Its good thing but would require lot of power to keep it at pace... How one would make it in ambient temperate or elavated temps?
I find it interesting and wonder if this time crystal is dependant on speed as electronic clocks normally are? Also at time 11:55 you have a circulating signal. It looks much like the electromagnetic signal of light but it has the magnetic signal 90 degree out of phase. That is what I believe any EM signal should be but most people claim that they are in phase when in far field.
Very much appreciate this accessible synopsis! "Time crystal" seems cinematic. Is it really more than a kind of oscillator?
Very good keep it up
It seems to e defined as an oscillation produced with a stable input. But that's by calling an EM wave 'stable' when it's by definition itself oscillating. If the TC output frequency varies with the laser light wavelength then I think the whole thing is effectively a kind of optical mixer/down-converter.
at 6.9 secs I suspect it from noise from a system. That waveform looks very similar to a Gifford-McMahon cryocooler cycle. One simple test would be to replace the crystal with a different material & see if the result is the same & make sure the cryocooler is turned off when taking a measurement.
🤔 10:42 ChatGPT here 👋🏼 In the context of the Kelvin scale, the term "degrees" is not technically used. The correct terminology is simply "kelvins." So, when referring to a temperature on this scale, you would say "6 kelvins" (6 K) instead of "6 degrees Kelvin." The Kelvin scale is the base unit of temperature in the International System of Units (SI), and it is widely used in the scientific community for its ability to work with absolute zero as its starting point.
Harmonics, end harmonics. I think ironically, there's a lot to learn from how the resonant qualities of the internal structure relate to musical tones. There seems to be a very clear parallel and perhaps some light to be shed on the fact that what you're doing in essence is tuning the crystal by way of altering the structure. I personally would want to in add vertices in some virtual or theoretical way to the structure, maybe in the same sense that when two musical tones are played together they create a third tone as a result of what I want to say is "sympathetic resonance" , but could go deeper than that where you actually have a measurable wave form. Either way I wouldn't let that stop you from working with a theoretical framework that is perceived rather than measured. You still might find some anomalies that have a degree of control before they get all whacked out.
I curious to know if it could be used to drive a high-powered transmission system for communication that would provide higher bandwidth than present modulations systems using lasers or radio.
In some ways it sounds like another flavor of atomic clock, as some aspects sound quite similar to how those cesium clocks supposedly work. Other than that, the graph on the scope also seems to have both pulse width modulation and wave-folding going on. I wonder what causes the peak on the longer half of the cycle to flip over like that? (Inherent to the thing they're reading, or just an artifact of how the signal is collected?) Also pretty sure quartz crystals do their thing with a direct current input that isn't oscillating, which is why they're used as a timing reference component in electronics. If it required an oscillating input, it'd defeat some aspects of having it on something like a battery powered circuit in the first place. (There are other ways of doing timing with stuff like coils and capacitors as part of an oscillating circuit, but those are more prone to noise or interference given my understanding.) Something doesn't seem quite clear, as there is a difference between needing an energy input and having that input itself oscillate.
I'd be interested to examine the impact absorbing capabilities of a materital that quickly oscillates between rigid and flexible.
I have never heard of most of this stuff but you explained it in a way that I understood, which is pretty remarkable. Either you are a wonderful presenter or your style just suits me. Either way, cheers. 🙂 (No ongoing interest in time crystals though ..)
I love this post its the clearest and most detailed presentation I've seen, but using laser and magnetic field to stabilized the system is a let down. A 6.9 cycle is a very very slow combine the strategy of dumping the different of the output as noise may lead to questions.. Overall this is great.. thanks
So when inspecting "time crystal" systems, how does one ensure there is or is not an input of energy into an system that has a functional basis on the level of atomic interactions?
Is the period of the waveform independent of inertial reference frame, by any chance? Interstellar travel would definitely benefit from an absolute time reference. Basically anything we can find that is a fundamental constant timer is extremely useful for all sorts of things. Navigation, GPS, telemetry. Now just make it pocket sized.
If the length of the period is extremely stable, could it be used as an "offline" relativistic velocity-measuring device by comparing the phases of a stationary crystal and the one that was moved around? Time dilation would have made them oscillate at different speeds, right? Or does the travel-loop cancel out when they are brought back near each other?
Thank you so much for that. I feel a little like Hannibal Lector, when he was given information to play with in his mind, which oddly resembles the input effect dynamic, sort of. Thank you. Is/was the observer effect accounted for?
I'm curious of this optical job. Any videos on optical/light stuff?
Laser pump energy is oscillating! How do you know that there is not some sort of "beating" taking place? Regarding second time constants in atomic action, consider a chemical NMR, where substances are held in ALMOST perfectly uniform magnetic field. When the exciting RF is removed, the atoms get out of time because they are in slightly different fields. Even though they are oscillating at 60MHz, a fraction of 1 PPM of field causes them to stop reinforcing, then cancel, then reinforce again with periods spanning multiple seconds. I used this to judge the quality of the field uniformity.
Isn't... a laser (or, well, any EM wave) a periodic signal in and of itself? So doesn't using a pump laser kind of introduce a periodic input to the system yet again, thus making this no different than any other resonant system? Does the behaviour of the time crystal change with the change in pump laser frequency, or is it completely independent in all the output parameters and modes?
My practical idea: it's difficult enough (read: not actually possible) to synchronize independent timers accurately, e.g. traffic lights not centrally controlled. A time crystal, oscillating a property which commutes over an ER bridge (read: quantum entanglement), could provide that impossible synchronization. Instantly. Over any distance. [I may have been a civil engineer obsessed with this problem in a past life. Just the temperature difference from one intersection's switch box to another intersection's would cause their internal R-C/555 (or crystal) timers to rapidly de-synchronize.]
@SeekingTheLoveThatGodMeans7648
2 ай бұрын
Easier to provide a crystal oven, no?
@GothAlice
2 ай бұрын
That's, ironically, the problem. Thermal expansion induces electromechanical property changes, e.g. varying the capacitance or resistance of a capacitor or resistor, vital components of "555 timer" circuits. These regulate the frequency of the pulses, which are counted to indicate the passage of time. If these change… the rate of time passing changes, at least, according to the device. (And yes, providing a "consistent temperature oven" could be a theoretical solution, but a poor one from an efficiency and loss perspective. 😜) Similar issue, though less pronounced, with quartz crystal timers. These can still go out by a few seconds over the course of a month due to these environmental factors. Your computer keeps its internal crystal oscillator "in time" using Network Time Protocol (NTP) servers to calculate drift, and locally adjust. (Central coordination somewhat resolves the issue of independent timers, by not being independent.)@@SeekingTheLoveThatGodMeans7648
@drdca8263
2 ай бұрын
This sounds like it would conflict with the no communication theorem about entanglement?
@GothAlice
2 ай бұрын
Non-locality has been demonstrated through "Bell tests", though absolutely there currently are some silly (read: extreme) limitations on the durability of the message carriers (entangled atoms or photons) and viable range. In 2022, a team produced entangled rubidium atoms and achieved communication for "device-independent quantum key distribution" up to 400m separation. (July 28 Nature) A third study shortly after (July 29 Physical Review Letters) achieved 220m with photons. (They aren't as stable.) @@drdca8263
It triggers me a somewhat related question, the steady movements of electrons in a core - they can’t be observed but they are ephemeral, right? So is each Cristal already a time Christal due to the zeropoint quantum movement?
At the results you still see the variety in the measurement, likely from the noise. Also, isn't the laser providing the "clock" and the matter is still merely syncronizing to it, even if the structure is built to cage the oscillation frequency. For some reason it reminds me of the quantum entangled drums, wonder what else we can spin to our will.
That waveform looks familiar. Like what happens with some vacuum tube oscillators when the energy is too high and it causes a breakdown of the ionization efficiency of the gas at that energy level.
Ive seen that pattern in signals that are saturated, like a phase flip during that dip in the oscillation. Given that I’m still confused on the time crystal definition. This example is just a coupling between the electron and nuclear spin?
@xband
2 ай бұрын
Are they using rf detectors? I need to look at the paper I guess. Pump probe electron diffraction might provide insight. Again I’m clueless at to what’s being measured.
14:48 😂😂 I already love this channel 🎉