Agreed, I can't think of a better ambassador for the industry. His channel is so good at being appealing to people who know nothing about 3d printers as well as experts in 3d printing.

Ennit. Props to him for dumbing it down for the simps

"Let me have a closer look at that running wood chipper" 😂💀

PolyJet ?

I mean isn't that what we all do?

@@willofthemaker not on an atomic scale but yes lol

Don't forget, plus a huge "star" load of power too.

Using light based technology and resonant frequencies along with magnetic fields to hold the materials, we could generate if we understand the dimensions.

Specifically to resins transparent to x-rays, might be simpler to apply the technology to visible light for the stick growth point

When the resolutions get high enough, you could pattern in structural color :) (40 years or so from now)

Thanks for watching!

It sounds like once you have the hologram, then yes? I think recording the hologram is still a big step. But everything is solvable.

yes, that is the goal. Indeed, the main challenge is how to localize the light properly to achieve "almost" isotropic resolution.

You can have holograms of transparent objects, and even things like lenses and such, not to mention with enough parallax you can see behind solid objects in a hologram, and with high resolution and shallow depth of field, you could even have things visible at different depths depending on focus. If you for example had a hologram recording device fast enough for that, or just used a computer calculate a hologram, you could for example have those line patterns of light that are different at different depths under wavy water, and a piece of paper moved across the hologram volume would show the bright lines changing depending on where you place the paper.

If they can get the curing to work fast enough, I would imagine it should be doable with just high-intensity flash, and the light will already have swept thru the volume before the molecules start rearranging. Or perhaps just have additional mechanism to record a hologram of the volume as it is processed, recalculating the projected hologram in real time to account for the changing lensing of the curing media.

Thank you for your love of magic!

@SixOThree Thank you for the questions. Yes, not moving, no layering. We are exploring the capability of a completely motionless, single-shot mode of printing. The lasers are switching in the video just because of the two holograms are sharing the same modulation device (for cost reasons). So in theory there could be no switching and the two holograms can be simultaneous. And of course, doing multiple exposures would have benefits in improving overall uniformity and diffraction efficiency (light utilization), but it makes the printing process slower. On your final question, yes it is just one projection of a 3D distribution of light. If you intercept the light beam at different depth (along the beam), you get a different image.

@@mr.chichungli814 Oh hey, you have a youtube channel. At the moment, the real limit is the resolution of your Light modulator, in terms of detail, isnt it? I mean, i guess you can focues the beam smaller (with the same limitations as Foto-lith) but you cant get more pixels in than that holographic flatscreen.

@@xxxm981 Right, reconstruction quality is the main issue. There are two challenges. 1) the addressable voxels on the hologram are not isotropic. Each voxel is much elongated in the axial direction so the axial resolution is particularly poor. This is the problem my work is trying to address, by using two (or more) holograms simultaneously. 2) The second problem is like what you said, the limited total number of pixel on the spatial light modulator does limit the total number of pixels on the hologram (for any given plane). The field of VR/AR display (and the big tech companies) is trying to address this by advancing the hardware.

@@mr.chichungli814 👍 Do you have plans to produce a consumer-grade holographic printer? Something like this litiholo hologram printing consumer grade product. It would be very cool if there was one.

@@canxuedexue Well, I also wish it is production ready. This is an ambitious project, trying to make a big leap (even relative to state-of-the-art scanning type of volumetric AM) to do single-shot printing. Currently its cost and performance are limited by the spec and price of the phase modulator, the objectives...etc....all the parts that form this printer. So like many other research, there is a long way to reach that stage of technological readiness. I and other collaborators will keep working towards the goal of single-shot printing.

Right, other volumetric display methods can be used to expose the resin. And yes all these methods usually involve de-magnifying a larger image into a smaller one (or at the size you want to print).

A hologram is useful here. Unstructured light coming out of lenses would just act like that topographic volumetric method they mentioned at 1:00 : it can create a 3D field, but it's limited somewhat in the shapes it can make. You're basically creating a 3D image by intersecting a bunch of tiny lines through the resin. A hologram has no such restriction; by using interference, it can create 3D patterns even if the light is coming from only one direction, and can make some shapes that are impossible to make with other methods.

And sweeping focus to cure at different depths would be slower than exposing the whole volume at once. Other types of volumetric displays may or may not work. If I understood it right, they count on the virtual object existing inside the volume of resin (or whatever curing media they're using); some volumetric displays only let you see 3d behind/inside the screen; perhaps some types of lightfield display could work; but I'm not sure there's anything with the strong contrast you can obtain with lasers though.

@@tiagotiagot You don't need to sweep the focus. The lens equation is 1/di + 1/do = 1/f, where di is the distance to the image, do is the distance to the object, and f is the focal length. If you have a 3d object, where some parts are closer to the lens than others, then the image will also have some parts closer to the lens than others. Just by putting the object and lens in place, you'll be focusing light on a 3d volume.

@@DanielLCarrier I don't remember what point exactly what I was replying to, maybe KZbin removed the comment (been seeing lots of my own comments getting hit by the filter for no reason lately); but from context, my guess right now is that first line was talking about an approach using flat images generated by a conventional projector and performing the reverse of focus-stacking photography, or using a volumetric display of the kind that uses persistence of vision and a scanning focus (vibrating lens or whatever), to cure the resin in place as multiple layers, sorta like the other way around to how conventional resin printers work.

Pew pew pew! Need a Thor snack box at the LA office!

Vacuum wouldn't let the sound work. Maybe you could use lasers tweezers; but I'm not sure they would work with curable material without causing the droplets to cure before reaching the right spot. Just sealing the box with air and designing the walls to not get in the way of the acoustic levitation might make more sense though; though, as the print grows, it will start affecting how the sound waves bounce around, which would need to be accounted for, and could complicate things a lot. Though, aerossolizing toxic resin doesn't sound like a good idea...

@@tiagotiagot No. It would work like this: put air back into it ----- THE REASON IS BECAUSE THE CONTROLLED AIR WON'T HAVE PARTICLE IMPURITIES, AS IT WILL COME FROM A PURIFIED OR GAS CONTAINER.

@@richardcraddock1965 So not a vacuum as you originally described.

Vacuum Step 1. A vacuum Step 2. Insert gas, such as controlled air Step 3. Apply sound per layers and directions Step 4. Insert particles Step 5. Combine and modify via lasers

There are published work using sound waves to print. You can look up "Self-enhancing sono-inks enable deep-penetration acoustic volumetric printing". And of course people use different wavelengths of light as well.

Thanks for the question. Material-wise it is the same, hence the name "holographic lithography". The difference is in the optical projection. 2D image vs 3D image. Stereolithography only have 1 plane of interest and can not control the image on other planes.

Tell me about it. Years ago I was making holograms as a hobby. I needed a heavy table on inflated inner tubes to get it vibration free enough. By that time I was working with a 1mW Heliun-Neon laser tube, that I had mounted in a self-designed case. The mirror holders where also self-designed (those part are really very expensive to buy), and use microscope-lens optics with self-made pinholes (using very thick Aluminium foil). I had to use a dark room, with at least of air movement as possible. The holographic film was a Afga 8E75 sheet film (somewhat affordable at 50 sheet packages), and a standard developer (Rodinal) with a self made bleach bath (not easy too get the chemicals for that one) for reflection holograms. I got some really good results with that setup. These day's it's much more easy, because you can use far more powerful diode lasers (in the order of 250 mW or far more), that also have a far longer coherent length (so you can make holograms with more depth). By using those powerful lasers the need of a suspended table is greatly reduced, because exposure time is really very short. There is also a firm (Geola) that still makes holographic film sheets (PFG-01) and conveniently also make the pre-mixed chemicals needed to develop and bleach the film. I am busy to restart my hobby again, so it's going to be fun...

@@jclosed2516 Appreciate the details. It was a hobby, that did not materialize for me, due to needs of space,time and resources involved. Neverthless much homework was done. With better tech(esp. high pwr stable coherent lasers) and a sensitive film, it seems definitely doable.

@@aware2action Yep - Especially the Helium-Neon laser tube was very expensive. I started out with a more affordable 0.5 mW version, but that suffered from too long exposure times, making good enough quality very hard. So I gathered some money and went for the much more expensive 1mW model. Loucky enough all other equipment was self made (except for the surface mirrors of course), so I could at lest keep the cost down. Later on I got the opportunity to work for a studio that made large scale holograms using a 1W Argon laser, and I have learned a lot from that. These day's the diode lasers that are stable enough for holography are a fraction of the cost I payed for the HeNe lasers. As I can now print the majority of the needed equipment on a 3D Bambulab printer, I have another big cost reduction. I can now restart that hobby for under $500, wile in the past I was looking at prices of several times that amount. As said, It's going to be fun... 🙂

@@jclosed2516 Glad to hear and feel the renewed enthusiasm to restart a favorite hobby. One thing I am not sure about the diode lasers is, if they are useable without additional cooling such as TEC, to provide enough stability in polatization and wavelength drift. Wish you goodluck, and let me know how it goes☺️. I am trying to restart one of my hobbies as well, ecofriendly inhouse pcb production and assembly in less than an hour!. I do use BL printers, and find them useful for trouble free printing of custom enclosures.

@@aware2action Yeah - I do a lot of PCB design myself, but I always find it a hassle to work with all that etching fluids and photo sensitive boards. So - I probably take a shot at those cheaper CNC machines to make PCB's that way. There are a few tutorials on YT, so it's worth a try. Oh - And about that cooling. These days you can get complete diode laser modules, that have adequate cooling housing and are stable enough for holography.

Dang man, that’s cool!

@@3DPrintingNerd Lucky guess.

Agreed! COOL AS FORETOLD;)

maybe this is the point were you should start a Holographic 3D Printing folder :D

why not both?

oh you're going to love one of the other videos we shot there, then :)