This company should make their mascot/logo for this lens the rainbow mantis shrimp because these animals can also see all the types of light and polarization that this lens can.
When taking physics in undergrad and thinking about how to make space telescopes that can image exoplanets. The idea of a lens that can capture all the information contained in the photons in a nanometer size region space would allow this but until now I had no idea they actually had something that can do this. This would enable the mass production of a fleet of telescopes that can collectively image incredibly small and far away things.
Omg i completely forgot about this part. Imagine if we could put a big one for those telescope we sent above. This would be massive, we already invented something better than JW that was supposed to be the best we had
There's already talk of using the sun as a gravitational lens to magnify a point far behind it in the same way we get gravitational lensing in deep space images. If one could someday locally manipulate gravity, one could focus the light to a small point made of meta-lenses and extrapolate a ridiculous amount of information that we'd never be able to see without physically being there.
sadly, you'd still need X amount of photons, which would require a _huge_ collection surface for this kind of project. I doubt that inferometry based optics would be more efficient in "collecting" light than a plain mirror? An interesting idea for this project is to use the sun as a gravitational lens. There is an interesting paper from JPL on this, presented by this "friendly neighborhood astronomer Prof. of astronomy youtuber", forgot his name though...
Astronomy was the first application I thought of as well. The metalenses could conceivably detect virtually everything across the entire light spectrum without the need for sub zero cooling.
I, and many others, were making these routinely in our labs in the late 1980s. There are many published papers on the subject. My first Ph.D. student went on to found a company that sold these commercially in the 1990s. If Metalens has any advance over old technology, it's not apparent from the video.
Lately I've been wondering if the sort of tech used in phased array radars and to steer wifi/cellular beams is applicable to visible light. What i'm wondering is this mostly based on the same principle?
This video and the company's website present it as an obscure new technology... from what I understand, this is a holographic lens, holograms were invented in the 60s and have to be made on photographic plates, the real innovation here is to make the hologram using photolithography. Another possible innovation is to control both the amplitude and phase of the interference pattern, making this an in-between of holograms and spatial light modulators, and would allow to remove the conjugate image. The big problem is that such a lens can only work with a single wavelength of light and can only be used with laser illumination. Could be used for machine vision applications, but it's certainly not going to replace camera lenses anytime soon. The video illustrates the patterns of the lens with tiny colored shapes... nope, the pattern is probably concentric circles, what is called a fresnel zone plate.
@@xstrxd Yes, it's called a hologram, and it's sort of an optical phased array. The "beam-steering" properties of holograms allows them to record images of 3-dimensional objects. Holograms were also used in the 60s and 70s to reconstruct images taken by radar satellites
Yeah man in 2022 I was told I was going to die over and over by doctors due to liver and kidney disease. During that time I was disappointed that I wouldn't get to see all the new things from movies to airplanes, and concept technologies that are coming out. People are so negative about the future, but honestly now that I'm living it I think it is great. Even with all the things going on. I am going to hold on for as long as I possibly can, and do what I need to do.
There is way too much fluff in the video. "Here is Foo. He gets excited about optics. " "I'm excited about optics. Does my hair look okay?" "His hair looks good." . Urgh, get on with it!
Magic Leap's CEO often talked about their waveguide being an "optical processor" (might be misremembering the exact term used). So a much more impressive use than the camera of a smartphone, would be for optical computing. When using photons, there's a MUCH larger processing bandwidth achieved due to the different wavelengths can use independent of each other. The different pieces have been slowly being developed for a while now, and hopefully can soon be brought together.
@@Skinflaps_Meatslapper I have, not just one but by the billions for over 30 years, nothing new here, American industry shut it down, sent it off shore , killing jobs, and making more profit, not to mention giving away intellectual property in the meantime.
one thing they did not touch upon is that these lenses can be made in a way that makes photonics possible i.e. computing with light instead of electrons.
@@mancerrss BUT, the computing would be done at the SPEED of LIGHT. AND, you could EASILY...... Increase the size of a BYTE!!!! have bytes of 8, 16, 32, 64...... OR, 10, 20, 40, 80, 100 or 200, if you like!!!!!!!
@@Player-pj9kt the same way an integrated chip is better than a circuit made of copper wires: circuit elements can be packed into microscopic sizes thus having every bit of area contain more circuit elements leading to greater compute power for the same area.
A telescope built with these would be fantastic, since CMOS image sensors and meta lenses are both made via photolithographic processes you could feasibly order multiple wafers and make them a bunch of self contained units. Each one a mini telescope. Then package them in into a VLBI orbital observatory. Also I'm not sure about the maximum angle, but since silicon is invisible to some IR, you could make a Sensor + support-silicon + metalense stacked die for very small cameras?
Light doesn't scale. When it comes to cameras and lenses (or optical mirrors) there is no substitute for size. This video is exactly correct when it emphasizes that it offers extracting more information _inside_ the image. That is also all it offers. But we don't know yet what that will lead to. Better identification and diagnosing probably, that sounds very plausible. Military AI that is better at discerning the hiding russian soldiers it will plink with mini grenades, maybe. Having AI machinery to 'see' more will maybe be the biggest application.
My guess is that the polarization detection will offload a very big portion of an AI's work when it tries to see 3d... Computer vision would become more reliable, and if it can see more than a human, the possibilities for it are endless.
@@Vermiliontea Though I agree, it would have an effective military application, it is still a weapon politicians are gonna use for mass slaughter. Those fuckers want you to think they are protecting you, they will do everything possible to paint themselves in a good light, even though they have instigated those wars themselves to further their agenda. And I'm not defending Russia, rather, USA has the same fault in what is happening. I wonder if USA wins, who is the next bitch they will harass? China? They talk about free market, yet for them destroying the lifeblood of other countries is also "business". In short, be careful of what you're supporting, for I am sure that you know not all the underlying consequences.
@@Vermiliontea if we can capture light by multiple sensors preserving the coherence by for example, mixing it with the reference source like laser, it would allow to build a facet eye telescope from multiple cheap units
Optics only get so complicated because we need more optics to correct for the faults in the original optics, but even the correcting optics themselves need correcting. You just can't win. Meta lenses don't need any of that and that makes them simpler and much better.
@@mcmadness110 That only works for problems like chromatic aberration. You still need optics to correct for spherical aberration. You still need to have it full in focus on the LCD plane.
This is the reason why Arri Sig Prime lenses has to be that huge. They got a correction piece of glass for the correction piece of glass for the correction piece of glass and so on haha That near perfect no focus breathing is unreal. But as they stated, it's still not 100% perfect, just enough and look the best with our eyes. Wait for this semiconductor level lenses etching for the phone to be cheap and mass produce. probably nice to have apsc size sensor on phone with lenses like 2 mm thick and got 24mmF2 FF equiv. If not, at this rate, we probably got the phone that has 10 cm thick camera bump lmao.
Meta-materials will change our world, and how we look at it. This specific tech, can also be used as a magnifier to see both the very small, and the very far. I Love how this can be used to 'see' much broader wavelength as well. Light bending meta-materials for cloaking has been tested for at least a decade. Meta-matrials can be used for most, if not all wavelengths, enhancing things like antennas and sensors. In a way, we have been using such materials for decades already. DLP, lab on a chip, the microscopic sensor that detects acceleration in everything from your car to your cellphone. As you could see, this was made in a fab. Only our imagination limit what kind of 'machines' we can shrink down on to a microchip...
4:39 - there is no such thing as "transistor tube". "Transistor" is _not_ a generic term for "electronic switch". (BTW, those tubes were mostly triodes; before them there were electromechanical relays.) Precision, people!
Star Trek Tricorders? YES PLEASE, thank you! The day I can take my phone and scan a watermelon or some Halo oranges and determine if they're ripe / NICE AND SWEET or NOT is the day I'm waiting for!!
Can you write a 175 word essay whereby the number of vowels, consonants and letters are each exactly divisible by 7? Furthermore the number of words that begin with a vowel or consonant must also be exactly divisible by 7. The words you use only once must be divisible by 7. Additionally, because each letter has also a numeric value - a = 1, b = 2 etc., the total value of the essay must be exactly divisible by 7. You have been given only 7 criteria, the last 12 verses of Mark contains over 70 different features that are exactly divisible by 7. Take all the time in the universe.
Polarity modulation would add a whole generation worth of communication bandwidth. With this technique as is, you can split polarity into as many bands as you can fit regions on the chip.
"More computational power than we know what to do with" Don't worry software developers have you covered. We can apply our "clean code" practices and our SOLID principles to make any computer, no matter how powerful, feel slow and sluggish.
One thing....vacuum tubes are NOT transistors...they can perform the same functions but transistors are solid-state devices allowing the miniaturization that results in innovation in electronic design.
I know it's mentioned to put it in layman's terms, but 1:29 is wrong about the speed of light changing. The apparent change in speed is a change in phase and group velocity, not actually the light slowing down.
Metamaterial optical lenses aren't new. Victor Veselago's 1961 paper "The Electrodynamics of Substances with Simultaneously Negative Values of ε and μ" showed the possibility of metamaterial lensing by introducing the possibility of a negative index of refraction and matter affecting the reaction of light. See the Wikipedia entry: Superlens. The first microscope Superlens using a metamaterial increased the resolving power of a light microscope from 200 nanometers to 100 mn in 1981. Putting together the mathematics, computer power, and fabrication facilities to design and build Metalenz's metamaterial lenses will change many facets of optics. The prediction of size and mass creates a whole new kind of camera.
I mean you could say that our devices would be able to see the world in a whole new way. But our devices are an extension of ourselves. Obviously eventually we will figure out how to make contact lenses or some other sort of implant that would enable ourselves to experience it more directly. Just like going from a wheeled chair to prosthetic etc.
I like the Automotive Application benefits. Whether people use them or not (idc how good of a driver you are, the computer thinks faster) Pre Collision Auto Braking, Collision Avoidance, Lane Keep Assist, Adaptive Cruise, Blind Spot Detection, etc. all things that help bad drivers be safer for others, and avoid accidents. A black ice sensor would be amazing in Winter areas.
This entire video comes off as an advertisement masquerading as education. It's very well produced, with super crisp visuals, and smooth editing. It also stretches out every simple explanation by 10x, and is pretending like this tech is new, when it's not. You can watch Huygens Optics make these things in his garage shop, and he walks you through all the actual science + the software used to design these lenses.
In which video did hyguen optics make these lens? I dont recall him using photolithography to create an array of lens. The new manufacturing technoque is the topic of this video
Something tells me that vehicle manufacturers could be considering that new lens technology for even more advanced safety systems, or something to alert a driver about black ice, and maybe turn the entire windshield into a HUD so the driver can see exactly where black ice or other hazards are.
If you have a pure clear vision of something, you can always downscale it, distort it or morph it to simulate whatever imperfect lenses can do - eg. apply a fish eye distortion transform to simulate fish eye lenses.
Incredible video, had never heard of these materials before but there's a lot of room for growth if they're being printed in the same way as processors.
"Collapsed lenses" and "multilenses" (like in insect's compound eye) are nothing new, but if they can be produced cheap and in many easily programmed forms, it could be new important branch of mictotechnology and optics.
So many possibilities. A person can become a real life bionic with telescope eyes, run like the fastest athlete, work in most hazardous places, and yet come home to watch a video or to friends places too. With these possibilities the human being will become extinct. Are we ready to become like the dinosaurs?
I’d like to see this as implantable in the human eye. Imagine telephoto and macro vision without any external device. No one would need to wear glasses anymore.
why not extend this to everything? not just light controllers, but everything? theres plenty of info around you already, this is just 1 way to start acquiring it and manipulating it in new ways.
Smartphone and VR-AR-MR-XR lenses are goin to get a *HUGE* boost from this 👍 Imagine mixing-and-matching spectrums of captured infrared, polarized, and visible light all on the same lens!
Never mind what this could mean for your smartphone (although that’s very cool)… Imagine what this could mean in the realm of lens exchange surgery. This would go far beyond “refractive lens exchange”, which I believe is currently our best technology for restoring clear vision. This could possibly, not only give you a perfect “correction” to vision…. but potentially could provide you with “an upgrade”.
Interference pattern is only good for single frequency. I.e. green is focused, but red and blue are jumbled. When company hustles you to make a pretty video, but can't demo it's product, be suspicious.
I like the unknown part of the impact this technology will have. Smartphone is a platform for individuals, it is amazing how it will continue to develop with new technologies.
we talking about a lot of the mass applications of theses technologies , phone, microscopes , that's good , but i thinks weird that this video don't event think or emit the idea for spage . IF this technology is so effective, it could save a lot of troubles for telescope and satelites (little reminder, the old hubble : 828 kg of only glass , and we can do something this thin and light? that's a real game changer too , i'm really surprise to not heard even the possibility of that...
Not exactly To get a fresnel lens you basically take a conventional lens and divide that into concentric sections so it kinda replicates the refractive property of the original This is more like insect eyes where each pixel of a camera gets its own dedicated lens
Thought of it like 10 years ago. Create a neural model. Make a recalculation to optics. Make layers and layers of optical wafer so you exactly focus light as layers of a neural network should be connected - the outcome is a realtime optical neural model that calculates everything creating no thermal footprint, hypergreen, working in realtime seamless inference. Once you make this optical neural processor reprogrammable you eliminate manufacturing costs. Cloud would provide creation of a new neural pattern contruct, load will be at night time. Voile
Metalenses are monochromatic. You need monochromatic coherent light to use them. Can e.g. not be used for photography. Just so you know. There are hints in his text that hints at you can.
The lenses we have now will never go away, retro will always be popular, look at the boom in film cameras. More likely is cars won't have glass windows, instead the outside will have cameras and the inside will be all screens, making weather and darkness go away, with rear view black mirrors.
It is one of my first time watching Freethink and I love the « Hard Reset » technology forward looking concept ❤. I like very much video about optical meta-optic through photolitography and this video conveys exactly what I am thinking about this technology for a long time (after reading an article on Technology Review). In my opinion, another interesting topic is spintronics and MRAM (let say bi-stable DRAM, like be-stable E-Ink displays) that should finally allow « Normally-off Computing » to emerge. The European research center IMEC recently published work about their Non-Volatile VG-SOT-MRAM and Intel is also working on their beyond CMOS technology concept called MESO…
So glad you liked the video! We have more Hard Reset episodes coming soon, so keep an eye out. Really interesting topics you posted, too - we'll check them out!
Man, 11 minutes of stuff for contents that needs no more than 2 minutes! Imagine all the possibilities that this technology could do using some imaginary technique that we will find in future !!!!
Well, I was waiting for 2 things that didn't get mentioned: 1) compound eyes and 2) normal everyday eye glasses. Specifically, what do they envision a compound lens might be good for (better than Lidar?) and could they build one? As for NEEG's - could they improve on normal lenses - like providing focusing, zooming, and anti-distortion? (that would be great!) And what about light gathering and amplification? Range-finding? Anti-fly Death rays? - Curious minds want to know!
There are many useful applications for sensors adding polarization information, but not many I can think of that the average cell-phone user would have need for. It could be used for glare reduction in photography I suppose. The most practical use would be in potentially making cellphone camera lenses smaller and cheaper. I suspect camera miniaturization is more dependent on improvements in the sensors than the lenses. With enough light sensitivity, a pinhole camera would do.
One key feature is identity verification - polarization information makes it much harder to spoof a person's face or identity for facial ID applications.
@@NickFromHardReset true. So that alone would make it an important addition. And even though we might not need to include wavelengths outside the visible spectrum in most images, it could dramatically enhance accuracy of AI identification and interpretation of the physical world.
@@Cineenvenordquist I don’t think the camera is necessarily looking for durable polarized features- but the polarization data can provide a depth map, similar to other Face ID solutions, and it can also tell if the face it’s imaging is real or fake. A lot of their testing was with 3D printed versions of faces that could fool other cameras, but clearly read as artificial with polarization.
Are you kidding? Having the power to map things in 3D or confirm that something is made out of what its purportedly made from and having it in then palm of your hand would be game changing. Also, think about what it means in terms of health monitoring. The opportunities are endless here...all from 1 lens.
Use these in combination with digital projector chips in order to create holograms on cell phones. A pair or more of these would certainly work! I bet 4 sets of these projector/lens units from the upper corners of a room facing inward would create a holo-deck!! Can't wait to see! Wait until NVidia gets their hands on these!!
The idea of a camera that can see better than us is not far fetched at all. Look what HDR does for photos. I can show colors on things that are typically not noticed when some people look at them. Some people are blind to some colors and thus they see them differently. I also like the idea of having a really good camera. I can then take a photo and zoom in on details I would not normally notice. The more pixels in an image the better your chances of this are. Sometimes a camera with a lower resolution may seem to take a better picture at times but that all ends when you zoom in and there is no more fine detail. You can't magically pull that detail out of thin air. If it was that easy we would pull everything out of thin air!!
This technology I can see is gonna be absolutely, and not only this gives cameras and optics and sensors etc more capabilities including making them even more powerful and things that we never thought possible I'm very excited for this technology
In the 70's I read a far fetched event that I wanted to believe so much. Knowledge of the lamp in a flying saucer that could control its focus from a very wide angle to be able to light, let's say, an underwater cave, to a narrow beam that could light a small area miles away, to the sharpest laser-like beam. I imagine this lens is headed that way.
This looks like the potential to boost existing solar panels by bending the light frequencies needed to the proper corresponding cell component. If the light frequencies are tunable via the structure, then multiple cell types can be used to capture different light frequencies in the spectrum and convert to electricity. Additionally, infrared light might better be either shed, blocked, or directed toward a heat sink coupled with tiny thermal generators on the solar panel to convert it to electricity as well while helping the other cell types to stay in their optimum temperature range.
Interesting subject, informative, well produced and top tier animations. Appreciate it!. Interesting subject, informative, well produced and top tier animations. Appreciate it!.
I can imagine the application for a future space telescope. It could be built in the shape of a half sphere, with the flat side designed to harness solar energy and protect the optics. The curved half sphere would serve as the optic element, maximizing its ability to capture and observe the entire region of space it faces. With this technique and technology, we could map the entire cosmos in greater detail than ever before.
could you do the opposite? like, instead of trying to bend light to read the information, could you use it to give info? kinda like the enigma machine or whatever?
making a Photonic chip which reflects light instead of electrical current. i'm sure you can create lense configerations that can produce any freqency of light in it's spectrum the spell is just being refined with the generations legacy data.
The principle of these meta materials is a Nobel Prize winner, ‘negative refractive index metamaterial’. The meta material (man made), catalyst Bismuth ferrite is a key to water splitting. This will produce a Hydrogen + Oxygen gas fuel for energy production. Bismuth ferrite will absorb a weak infrared wave and refract a water splitting ultraviolet radiation at the nanoscale.
This company should make their mascot/logo for this lens the rainbow mantis shrimp because these animals can also see all the types of light and polarization that this lens can.
That would be cool
And their compound eyes look a bit like these wafers.
odd, but I would agree! lol!
Merely binding them into some conservation and outreach activities yaaaay. They cured my testicular cancer yay ow ow ow ouch whoo...
They are fooling and enslaving you with these gadgets 👉 The Connections (2021) [short documentary] 💖
When taking physics in undergrad and thinking about how to make space telescopes that can image exoplanets. The idea of a lens that can capture all the information contained in the photons in a nanometer size region space would allow this but until now I had no idea they actually had something that can do this. This would enable the mass production of a fleet of telescopes that can collectively image incredibly small and far away things.
They are fooling and enslaving you with these gadgets 👉 The Connections (2021) [short documentary] 💖
Omg i completely forgot about this part.
Imagine if we could put a big one for those telescope we sent above. This would be massive, we already invented something better than JW that was supposed to be the best we had
There's already talk of using the sun as a gravitational lens to magnify a point far behind it in the same way we get gravitational lensing in deep space images. If one could someday locally manipulate gravity, one could focus the light to a small point made of meta-lenses and extrapolate a ridiculous amount of information that we'd never be able to see without physically being there.
sadly, you'd still need X amount of photons, which would require a _huge_ collection surface for this kind of project. I doubt that inferometry based optics would be more efficient in "collecting" light than a plain mirror? An interesting idea for this project is to use the sun as a gravitational lens. There is an interesting paper from JPL on this, presented by this "friendly neighborhood astronomer Prof. of astronomy youtuber", forgot his name though...
Astronomy was the first application I thought of as well. The metalenses could conceivably detect virtually everything across the entire light spectrum without the need for sub zero cooling.
I, and many others, were making these routinely in our labs in the late 1980s. There are many published papers on the subject. My first Ph.D. student went on to found a company that sold these commercially in the 1990s. If Metalens has any advance over old technology, it's not apparent from the video.
Lately I've been wondering if the sort of tech used in phased array radars and to steer wifi/cellular beams is applicable to visible light. What i'm wondering is this mostly based on the same principle?
This video and the company's website present it as an obscure new technology... from what I understand, this is a holographic lens, holograms were invented in the 60s and have to be made on photographic plates, the real innovation here is to make the hologram using photolithography.
Another possible innovation is to control both the amplitude and phase of the interference pattern, making this an in-between of holograms and spatial light modulators, and would allow to remove the conjugate image.
The big problem is that such a lens can only work with a single wavelength of light and can only be used with laser illumination.
Could be used for machine vision applications, but it's certainly not going to replace camera lenses anytime soon.
The video illustrates the patterns of the lens with tiny colored shapes... nope, the pattern is probably concentric circles, what is called a fresnel zone plate.
@@xstrxd Yes, it's called a hologram, and it's sort of an optical phased array. The "beam-steering" properties of holograms allows them to record images of 3-dimensional objects. Holograms were also used in the 60s and 70s to reconstruct images taken by radar satellites
Well, what happened? You sound scornful.
It might be an ad for the company targeted at investors.
this is the kind of technology that motivates me to live longer
👴❤️
Yeah man in 2022 I was told I was going to die over and over by doctors due to liver and kidney disease.
During that time I was disappointed that I wouldn't get to see all the new things from movies to airplanes, and concept technologies that are coming out.
People are so negative about the future, but honestly now that I'm living it I think it is great. Even with all the things going on.
I am going to hold on for as long as I possibly can, and do what I need to do.
Unless it used for cybergulag
God : Not if I want you home early.
Us : NNNOOOOO
There is way too much fluff in the video. "Here is Foo. He gets excited about optics. " "I'm excited about optics. Does my hair look okay?" "His hair looks good." . Urgh, get on with it!
I've been dreaming about metalenses for years. This is the holy grail of the lenses and it will be a revolution in smartphone cameras.
Magic Leap's CEO often talked about their waveguide being an "optical processor" (might be misremembering the exact term used). So a much more impressive use than the camera of a smartphone, would be for optical computing. When using photons, there's a MUCH larger processing bandwidth achieved due to the different wavelengths can use independent of each other. The different pieces have been slowly being developed for a while now, and hopefully can soon be brought together.
They are fooling and enslaving you with these gadgets 👉 The Connections (2021) [short documentary] 💖
That's great over 9 billion phones in the world NOT ONE IN MADE IN AMERICA, CELEBRATE THAT.
@@c123bthunderpig why don't you make one then
@@Skinflaps_Meatslapper I have, not just one but by the billions for over 30 years, nothing new here, American industry shut it down, sent it off shore , killing jobs, and making more profit, not to mention giving away intellectual property in the meantime.
one thing they did not touch upon is that these lenses can be made in a way that makes photonics possible i.e. computing with light instead of electrons.
Isn’t that in a way less efficient since Light wavelengths can be way larger than using electrons?
@@mancerrss
That doesn't matter here
@@mancerrss BUT, the computing would be done at the SPEED of LIGHT.
AND, you could EASILY...... Increase the size of a BYTE!!!!
have bytes of 8, 16, 32, 64......
OR, 10, 20, 40, 80, 100 or 200, if you like!!!!!!!
How would these lenses be better then fibre optics? Explain to me
@@Player-pj9kt
the same way an integrated chip is better than a circuit made of copper wires: circuit elements can be packed into microscopic sizes thus having every bit of area contain more circuit elements leading to greater compute power for the same area.
A telescope built with these would be fantastic, since CMOS image sensors and meta lenses are both made via photolithographic processes you could feasibly order multiple wafers and make them a bunch of self contained units. Each one a mini telescope. Then package them in into a VLBI orbital observatory.
Also I'm not sure about the maximum angle, but since silicon is invisible to some IR, you could make a Sensor + support-silicon + metalense stacked die for very small cameras?
Light doesn't scale. When it comes to cameras and lenses (or optical mirrors) there is no substitute for size.
This video is exactly correct when it emphasizes that it offers extracting more information _inside_ the image. That is also all it offers. But we don't know yet what that will lead to. Better identification and diagnosing probably, that sounds very plausible. Military AI that is better at discerning the hiding russian soldiers it will plink with mini grenades, maybe.
Having AI machinery to 'see' more will maybe be the biggest application.
My guess is that the polarization detection will offload a very big portion of an AI's work when it tries to see 3d... Computer vision would become more reliable, and if it can see more than a human, the possibilities for it are endless.
@@Vermiliontea Though I agree, it would have an effective military application, it is still a weapon politicians are gonna use for mass slaughter. Those fuckers want you to think they are protecting you, they will do everything possible to paint themselves in a good light, even though they have instigated those wars themselves to further their agenda. And I'm not defending Russia, rather, USA has the same fault in what is happening. I wonder if USA wins, who is the next bitch they will harass? China? They talk about free market, yet for them destroying the lifeblood of other countries is also "business". In short, be careful of what you're supporting, for I am sure that you know not all the underlying consequences.
@@Vermiliontea if we can capture light by multiple sensors preserving the coherence by for example, mixing it with the reference source like laser, it would allow to build a facet eye telescope from multiple cheap units
That little jab at Zuckerberg 😂😂😂😊
Optics only get so complicated because we need more optics to correct for the faults in the original optics, but even the correcting optics themselves need correcting. You just can't win. Meta lenses don't need any of that and that makes them simpler and much better.
I know vr headsets get around this problem by making sure the inconstancies are consistent and then corrects it digitally.
Hubble telescope has left the chat.
@@mcmadness110 That only works for problems like chromatic aberration. You still need optics to correct for spherical aberration. You still need to have it full in focus on the LCD plane.
This is the reason why Arri Sig Prime lenses has to be that huge.
They got a correction piece of glass for the correction piece of glass for the correction piece of glass and so on haha
That near perfect no focus breathing is unreal.
But as they stated, it's still not 100% perfect, just enough and look the best with our eyes.
Wait for this semiconductor level lenses etching for the phone to be cheap and mass produce. probably nice to have apsc size sensor on phone with lenses like 2 mm thick and got 24mmF2 FF equiv.
If not, at this rate, we probably got the phone that has 10 cm thick camera bump lmao.
Meta-materials will change our world, and how we look at it.
This specific tech, can also be used as a magnifier to see both the very small, and the very far. I Love how this can be used to 'see' much broader wavelength as well.
Light bending meta-materials for cloaking has been tested for at least a decade.
Meta-matrials can be used for most, if not all wavelengths, enhancing things like antennas and sensors.
In a way, we have been using such materials for decades already. DLP, lab on a chip, the microscopic sensor that detects acceleration in everything from your car to your cellphone.
As you could see, this was made in a fab. Only our imagination limit what kind of 'machines' we can shrink down on to a microchip...
"Cheap" I'll believe it when I see it. Surely this is patented which means 10 years before it's cheap.
4:39 - there is no such thing as "transistor tube". "Transistor" is _not_ a generic term for "electronic switch". (BTW, those tubes were mostly triodes; before them there were electromechanical relays.) Precision, people!
A Series about Rebuilding our world from scratch.....using thousands of years of previous innovation. AKA, not from scratch at all.
Star Trek Tricorders? YES PLEASE, thank you!
The day I can take my phone and scan a watermelon or some Halo oranges and determine if they're ripe / NICE AND SWEET or NOT is the day I'm waiting for!!
Can you write a 175 word essay whereby the number of vowels, consonants and letters are each exactly divisible by 7? Furthermore the number of words that begin with a vowel or consonant must also be exactly divisible by 7. The words you use only once must be divisible by 7. Additionally, because each letter has also a numeric value - a = 1, b = 2 etc., the total value of the essay must be exactly divisible by 7. You have been given only 7 criteria, the last 12 verses of Mark contains over 70 different features that are exactly divisible by 7.
Take all the time in the universe.
Polarity modulation would add a whole generation worth of communication bandwidth. With this technique as is, you can split polarity into as many bands as you can fit regions on the chip.
"More computational power than we know what to do with"
Don't worry software developers have you covered. We can apply our "clean code" practices and our SOLID principles to make any computer, no matter how powerful, feel slow and sluggish.
One thing....vacuum tubes are NOT transistors...they can perform the same functions but transistors are solid-state devices allowing the miniaturization that results in innovation in electronic design.
Will we be able to see Ghosts with that new lens?
I know it's mentioned to put it in layman's terms, but 1:29 is wrong about the speed of light changing. The apparent change in speed is a change in phase and group velocity, not actually the light slowing down.
Metamaterial optical lenses aren't new. Victor Veselago's 1961 paper "The Electrodynamics of Substances with Simultaneously Negative Values of ε and μ" showed the possibility of metamaterial lensing by introducing the possibility of a negative index of refraction and matter affecting the reaction of light. See the Wikipedia entry: Superlens. The first microscope Superlens using a metamaterial increased the resolving power of a light microscope from 200 nanometers to 100 mn in 1981.
Putting together the mathematics, computer power, and fabrication facilities to design and build Metalenz's metamaterial lenses will change many facets of optics. The prediction of size and mass creates a whole new kind of camera.
I mean you could say that our devices would be able to see the world in a whole new way. But our devices are an extension of ourselves. Obviously eventually we will figure out how to make contact lenses or some other sort of implant that would enable ourselves to experience it more directly. Just like going from a wheeled chair to prosthetic etc.
that was some cyberpunk sh*t right there, i'm in
1:04 you had me at “you could change your wife”
That Zuckerberg joke was slick.
This is like a phased array antenna but optical. Very cool.
I like the Automotive Application benefits. Whether people use them or not (idc how good of a driver you are, the computer thinks faster) Pre Collision Auto Braking, Collision Avoidance, Lane Keep Assist, Adaptive Cruise, Blind Spot Detection, etc. all things that help bad drivers be safer for others, and avoid accidents. A black ice sensor would be amazing in Winter areas.
This entire video comes off as an advertisement masquerading as education. It's very well produced, with super crisp visuals, and smooth editing. It also stretches out every simple explanation by 10x, and is pretending like this tech is new, when it's not. You can watch Huygens Optics make these things in his garage shop, and he walks you through all the actual science + the software used to design these lenses.
Agreed, this feels very "solar freaking roadways". Not to mention the infantile talk, this is for a specific target audience.
In which video did hyguen optics make these lens? I dont recall him using photolithography to create an array of lens. The new manufacturing technoque is the topic of this video
Yeah, this is cringe AF and I cannot watch it.
Im glad it can see that black ice, its dangerous and could cause problems.
Something tells me that vehicle manufacturers could be considering that new lens technology for even more advanced safety systems, or something to alert a driver about black ice, and maybe turn the entire windshield into a HUD so the driver can see exactly where black ice or other hazards are.
correction> refraction isn't about the material affecting the speed of light, it affects the angle of the light. aka refractive index
when you talk about big pharma and pharma sharks nothing is super cheap ever
_Excellent_ production quality, virtually _no_ actual information. Are you sure you did not shoot a commercial by mistake?
This will unlock so many possibilities that people haven't even dreamed of yet = we can only think of X uses for it
I believe it is the "sciency music" that is the trick that makes everything in the video being so advanced. 😄
If you have a pure clear vision of something, you can always downscale it, distort it or morph it to simulate whatever imperfect lenses can do - eg. apply a fish eye distortion transform to simulate fish eye lenses.
Pretrained neural networks can be turned into light bending wafers. This would make their calculations millions of times faster than they are now.
Incredible video, had never heard of these materials before but there's a lot of room for growth if they're being printed in the same way as processors.
this video is fraudulent and so is the company this video is about. americans have no intelligence or integrity. change will not come from america.
But can it see why kids love cinnamon toast crunch?
Mmh I expected an ultra thin lens that actually bends light in the visible spectrum. This would be great for VR headsets.
"Collapsed lenses" and "multilenses" (like in insect's compound eye) are nothing new, but if they can be produced cheap and in many easily programmed forms, it could be new important branch of mictotechnology and optics.
So many possibilities. A person can become a real life bionic with telescope eyes, run like the fastest athlete, work in most hazardous places, and yet come home to watch a video or to friends places too. With these possibilities the human being will become extinct. Are we ready to become like the dinosaurs?
Everything evolved from something.
This could be the next generation of No glasses 3DTV... after the stunning present Alioscopy lenticular solutions.
I’d like to see this as implantable in the human eye. Imagine telephoto and macro vision without any external device. No one would need to wear glasses anymore.
why not extend this to everything? not just light controllers, but everything? theres plenty of info around you already, this is just 1 way to start acquiring it and manipulating it in new ways.
The seemingly magical devices are coming. Wow
It might be used to transport data with huge bandwidth potential, and depending on sensors possibly store it.
Interesting stuff, but 6:55 just gives me “surveillance state” vibes. I guess that’s just inevitable in a technology advance civilization
Smartphone and VR-AR-MR-XR lenses are goin to get a *HUGE* boost from this 👍
Imagine mixing-and-matching spectrums of captured infrared, polarized, and visible light all on the same lens!
Not sure if i agree with this. Human eyes cant see polarization or infrared light. Whatever image the device outputs will just be plain old visible
@@Player-pj9kt Yes to our human senses the output would have to be through software that takes advantage of that data.
If anyone else is wondering where to find more information related to the physics behind this, I would suggest looking into diffractive lenses.
Basically you can have a 4cm diameter lens on your smartphone, and throw your DSLR camera in the bin
i do not think thats what they can do , it thins but i do not believe aperature is a thing they can claim to have expanded
They are fooling and enslaving you with these gadgets 👉 The Connections (2021) [short documentary] 💖
This is hype, to make a lens requires computational aperture synthesis which not talked about.
Never mind what this could mean for your smartphone (although that’s very cool)…
Imagine what this could mean in the realm of lens exchange surgery. This would go far beyond “refractive lens exchange”, which I believe is currently our best technology for restoring clear vision. This could possibly, not only give you a perfect “correction” to vision…. but potentially could provide you with “an upgrade”.
This will be more interesting when we can see a comparison of images taken with a meta lens and a standard cannon telephoto lens...
Idk what normal people would do with this but what immediately comes to mind are inspection drones in agriculture and industry
Where do I get one of those vacuum tube transistors?!? 🤣
Never-the-less, this is revolutionary!
Outstanding, amazing tech. A true paradigm shift. Congrats to the chefs. Bring it on.
The Carl Sagan is going to truly be next level. Cant wait.
Polarization is so cool, I did not know this is what polarization could tell as I found it counter intuitive.
This is really exciting! I‘m really thrilled to hold one of these sensors in a consumer product for the first time
Interference pattern is only good for single frequency. I.e. green is focused, but red and blue are jumbled. When company hustles you to make a pretty video, but can't demo it's product, be suspicious.
they have Tricorders already Wow our Cars and Phones are going to be great
the James web telescope is gonna need some massive updates
I like the unknown part of the impact this technology will have.
Smartphone is a platform for individuals, it is amazing how it will continue to develop with new technologies.
we talking about a lot of the mass applications of theses technologies , phone, microscopes , that's good , but i thinks weird that this video don't event think or emit the idea for spage .
IF this technology is so effective, it could save a lot of troubles for telescope and satelites (little reminder, the old hubble : 828 kg of only glass , and we can do something this thin and light?
that's a real game changer too , i'm really surprise to not heard even the possibility of that...
Those type of lenses were already discovered long ago, it's known as Fresnel Lens.. LoL
Not exactly
To get a fresnel lens you basically take a conventional lens and divide that into concentric sections so it kinda replicates the refractive property of the original
This is more like insect eyes where each pixel of a camera gets its own dedicated lens
Thought of it like 10 years ago. Create a neural model. Make a recalculation to optics. Make layers and layers of optical wafer so you exactly focus light as layers of a neural network should be connected - the outcome is a realtime optical neural model that calculates everything creating no thermal footprint, hypergreen, working in realtime seamless inference. Once you make this optical neural processor reprogrammable you eliminate manufacturing costs.
Cloud would provide creation of a new neural pattern contruct, load will be at night time.
Voile
Metalenses are monochromatic. You need monochromatic coherent light to use them. Can e.g. not be used for photography. Just so you know. There are hints in his text that hints at you can.
The lenses we have now will never go away, retro will always be popular, look at the boom in film cameras. More likely is cars won't have glass windows, instead the outside will have cameras and the inside will be all screens, making weather and darkness go away, with rear view black mirrors.
It is one of my first time watching Freethink and I love the « Hard Reset » technology forward looking concept ❤.
I like very much video about optical meta-optic through photolitography and this video conveys exactly what I am thinking about this technology for a long time (after reading an article on Technology Review).
In my opinion, another interesting topic is spintronics and MRAM (let say bi-stable DRAM, like be-stable E-Ink displays) that should finally allow « Normally-off Computing » to emerge.
The European research center IMEC recently published work about their Non-Volatile VG-SOT-MRAM and Intel is also working on their beyond CMOS technology concept called MESO…
So glad you liked the video! We have more Hard Reset episodes coming soon, so keep an eye out. Really interesting topics you posted, too - we'll check them out!
Man, 11 minutes of stuff for contents that needs no more than 2 minutes! Imagine all the possibilities that this technology could do using some imaginary technique that we will find in future !!!!
This was entirely empty of anything beyond vacuous marketing.
Well, I was waiting for 2 things that didn't get mentioned: 1) compound eyes and 2) normal everyday eye glasses. Specifically, what do they envision a compound lens might be good for (better than Lidar?) and could they build one? As for NEEG's - could they improve on normal lenses - like providing focusing, zooming, and anti-distortion? (that would be great!) And what about light gathering and amplification? Range-finding? Anti-fly Death rays? - Curious minds want to know!
9:37 I genuinely thought they put a Mario cameo in the video.
What excites me the most is the thought of using this tech in the next big space telescope.
We like the way you think. 👨🚀
There are many useful applications for sensors adding polarization information, but not many I can think of that the average cell-phone user would have need for. It could be used for glare reduction in photography I suppose. The most practical use would be in potentially making cellphone camera lenses smaller and cheaper. I suspect camera miniaturization is more dependent on improvements in the sensors than the lenses. With enough light sensitivity, a pinhole camera would do.
One key feature is identity verification - polarization information makes it much harder to spoof a person's face or identity for facial ID applications.
@@NickFromHardReset true. So that alone would make it an important addition. And even though we might not need to include wavelengths outside the visible spectrum in most images, it could dramatically enhance accuracy of AI identification and interpretation of the physical world.
@@NickFromHardResetwhat are you talking about, why would there be durable polarized features in a face?
@@Cineenvenordquist I don’t think the camera is necessarily looking for durable polarized features- but the polarization data can provide a depth map, similar to other Face ID solutions, and it can also tell if the face it’s imaging is real or fake. A lot of their testing was with 3D printed versions of faces that could fool other cameras, but clearly read as artificial with polarization.
Are you kidding?
Having the power to map things in 3D or confirm that something is made out of what its purportedly made from and having it in then palm of your hand would be game changing.
Also, think about what it means in terms of health monitoring. The opportunities are endless here...all from 1 lens.
This could be great for computing, imagine Transistors but ones that use light instead of electricity, that's literally 100X FASTER!
Fantastic outside the box thinking!
Use these in combination with digital projector chips in order to create holograms on cell phones. A pair or more of these would certainly work! I bet 4 sets of these projector/lens units from the upper corners of a room facing inward would create a holo-deck!! Can't wait to see! Wait until NVidia gets their hands on these!!
The idea of a camera that can see better than us is not far fetched at all. Look what HDR does for photos. I can show colors on things that are typically not noticed when some people look at them. Some people are blind to some colors and thus they see them differently. I also like the idea of having a really good camera. I can then take a photo and zoom in on details I would not normally notice. The more pixels in an image the better your chances of this are. Sometimes a camera with a lower resolution may seem to take a better picture at times but that all ends when you zoom in and there is no more fine detail. You can't magically pull that detail out of thin air. If it was that easy we would pull everything out of thin air!!
Ok can manipulate light. but how clear it is? can be used in eye glass or camara lens?
This is a 24th century stuff. We are already in Star Trek era.
If we can control light than we can make computer works with light speed in light like fiber cable.i know it we can found something control light
Well, if there are already ready serial solutions, then a year or two and this 100 poods will be added to smartphones, and this is simply incredible.
This technology I can see is gonna be absolutely, and not only this gives cameras and optics and sensors etc more capabilities including making them even more powerful and things that we never thought possible I'm very excited for this technology
I think you could just "simulate" anamorphic and fish eye effect with these flat lenses.
In the 70's I read a far fetched event that I wanted to believe so much. Knowledge of the lamp in a flying saucer that could control its focus from a very wide angle to be able to light, let's say, an underwater cave, to a narrow beam that could light a small area miles away, to the sharpest laser-like beam. I imagine this lens is headed that way.
This looks like the potential to boost existing solar panels by bending the light frequencies needed to the proper corresponding cell component. If the light frequencies are tunable via the structure, then multiple cell types can be used to capture different light frequencies in the spectrum and convert to electricity. Additionally, infrared light might better be either shed, blocked, or directed toward a heat sink coupled with tiny thermal generators on the solar panel to convert it to electricity as well while helping the other cell types to stay in their optimum temperature range.
This is awesome. The future is exciting.
Can these meta lense also let us see sounds and let us see (almost) every scent?
I can't believe I missed this channel for so long. The algorithm failed me.
If he can make that, why is he not making his optical eye wear glasses?
Interesting subject, informative, well produced and top tier animations. Appreciate it!. Interesting subject, informative, well produced and top tier animations. Appreciate it!.
Glad you enjoyed it!
The graphics are on another level
Amazing tech... congratulations! SCARY what can be done with this tech
I can imagine the application for a future space telescope. It could be built in the shape of a half sphere, with the flat side designed to harness solar energy and protect the optics. The curved half sphere would serve as the optic element, maximizing its ability to capture and observe the entire region of space it faces. With this technique and technology, we could map the entire cosmos in greater detail than ever before.
Wow phones are already impressive devices but to think I could have polarization sensor and spectrometer in my phone is incredible
It’s like a Star Trek tricorder !
I lived most of my life without a cell phone and to this very day for me, its just a portable telephone.
I would like to see this in my lifetime! Please bring back the silicon valley!
5 minutes into this and I have no idea what this is about
this would be perfect for headsets with the metaverse. the branding is even there already.
could you do the opposite? like, instead of trying to bend light to read the information, could you use it to give info? kinda like the enigma machine or whatever?
making a Photonic chip which reflects light instead of electrical current. i'm sure you can create lense configerations that can produce any freqency of light in it's spectrum
the spell is just being refined with the generations legacy data.
The principle of these meta materials is a Nobel Prize winner, ‘negative refractive index metamaterial’. The meta material (man made), catalyst Bismuth ferrite is a key to water splitting. This will produce a Hydrogen + Oxygen gas fuel for energy production. Bismuth ferrite will absorb a weak infrared wave and refract a water splitting ultraviolet radiation at the nanoscale.