How Carl Zeiss Crafts Optics for a $150 Million EUV Machine

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As an ASML engineer all that I can say is that you know way too much 😂😂
You were spot on with many details that it took me a long time to learn even inside the company, it's a very impressive research job you've done for this video, as many others
Congrats on the channel and keep up the good work! 👌

I retired from a company that supplied both Zeiss and ASML with glass blanks for their lenses.... We would get Zeiss visitors to the plant occasionally and almost every person would have Dr. before their name... You better have good people in final inspect because they expect zero defects....thanks for the video...very interesting..

Damn they went from designing the optics on panzers to the optics which makes the processors we use to simulate said panzers.
Way to step up in life

sequence error at 11:00 - multi-layer coated mirrors like this ABSOLUTELY cannot be touched, let alone polished, after being coated. The coating and its reflective properties would be instantly destroyed. All the super polishing has to be done to the substrate BEFORE the multi-layer deposition step. After coating, the mirror is done and must remain absolutely pristine.

I'm not a scientist or a part of the tech industry, I'm just a humble truck driver with a curious mind. Hell, I barely understand how a transistor works.
But watching this series on EUV is absolutely blowing my mind, even though I only understand like half of it.
Mirror so perfect that it would look absolutely flat even if blown up to the size of the United States... generating this impossible ultra-ultraviolet light by shooting drops of molten tin with a laser twice, 50,000 times a second... and then the transistors on the chip are so tiny that we can't even see it, even with a electron microscope! And yet it works, and I can buy it at Best Buy for a few hundred bucks.
Amazing what humans can come up with

One correction, @11:30: "If that 450mm mirror was blown up to the size of the United States, 4500 km ... then 50 picometers would be just 0.4 micrometers." Actually, 0.5mm, which is pretty astonishing.

I am a material scientist and I'have been studying cutting-edge technologies for the past years but I have to say this: holy shit. The level of complexity of these machines is just superior!!

Few people appreciate the extreme amount of engineering breakthroughs to make EUV happen. To the average person '10nm DUV' doesn't sound that different from '5nm EUV', but the leap from DUV to EUV is like from steam ships to nuclear aircraft carriers.

I'm a physicist and just walking through the the different kinds of physics, which need to be mastered to build this beast makes me excited like a 5 year old in a Toy R Us.
Building an airplane is just childs play and "rocket science" does not come close.
I'm just mentioning the physics involved in operating it. I'm leaving out all of the manufacturing.
- Classical optics
- Laser physics and optics
- Non linear optical effects
- Plasma physics (some of it based on inertial fusion research)
- X-Ray physics (we are pretty close to the X-Ray domain so some aspects already apply
- Gas diffusion
- Large scale precision mechanics (relative stability under stress, temperature changes, gravity)
- micro-mechanics
- electrical systems galore
- Thermal management aka heat dissipation
- Acoustics (avoiding and managing vibrations)
- All kinds of sensors - acoustical, thermal, magnetical, optical (stretching the definition), radio, dimensional, gravimetrical
...

Im an Engineer, who is working on these machines at ZEISS and i have to say, i have learned a lot from your video. Great research & great video. I will forward it to my coworkers!

Respect for your presentation. I work at Zeiss SMT on development of EUV systems and have to say you did great research. Love to watch your other videos...

As someone who is pursuing a doctorate in a relating field right now, I just have to say how well researched and explained this video (as well as your Zeiss one) is. You really are talented in getting across a lot of very difficult to understand information to a wide audience. I will happily watch more of your content. Keep it up!

The technological development of optics is arguably the greatest achievement of the last 500 years. Think Galileos telescope and Newtonian reflector. Nothing but respect for the engineers involved in this sort of thing.

The engineering of this at scale is rad.
Let's keep pushing to get computronium!

I'm not at liberty to say what, and what not, you got spot on but it's close enough. I've worked exclusively on EUV development for the past 20 years. When people ask what it is I do (as a job) it's almost impossible to adequately explain. Now I can just send them a hyperlink. Thanks for posting!

Zeiss is a two-time Oscar winner in the field of technology (lenses). The first camera on the moon had a Zeiss lens and the Lord of the Rings trilogy was shot with Zeiss lenses.

We're really pushing the boundaries for what can be done. I wonder when technologies get so advanced that human ability to manage project complexity becomes the limiting factor.

That Zeiss imaging is so crazy complex, it is amazing it works at all! I really appreciate you explaining these amazing machines. Thanks & Good Luck!

DUDE DUDE DUDE!!!!
Just found your channel.
I’m a huge laser, photonics, and optics geek. Spent all my spare money over the past few years building an optics test bed and laser breadboard in the corner of my electronics lab.
Just a mini photonics lab, with a bit of metrology & microscopy mixed in when I can afford it.
thank God for cheap components available on The second hand market these days! Pennies on the dollar for new or decommissioned professional level equipment from manufacturing, medical, and government industries!!! Some scary shit pops up for sale from time to time actually.
Love your content! Keep it up! we need stuff like this!😁

I didn't even know, that Zeiss still exists. Founded in 1846, everyone knew them to be amongst the best optics for rifles and binoculars. That they do this, is amazing!

I appreciate how you explain technical stuff in layman's terms.

What about IMEC? The “tiny” Belgian research center that is a key player in developing semiconductor technology and applications.

This is just amazing! These companies deserve every penny they get.

it really is amazing how much effort they have to put into these mirrors. I always wondered why they have to bounce it off so many mirrors instead of 3-4 (collector -> illuminator -> projector -> focusing). In all my reading I never found a clear answer.

My fellow software engineers cry about how difficult software engineering is. Compared to EUV engineering, software engineering is child play (including recent breakthroughs in ML). It's truly mind boggling. Humans are awesome.

As a client of Carl Zeiss I must say all their products are great! Their wet lens wipes are great!!!
Jokes apart, it's indeed an impressive company - my dad still has a late 1950s East Germany 35mm camera. The German company - like many other large companies in Germany - does not trade its stocks that are all under the control of the Carl Zeiss Foundation. That aspect of many German companies allows them to go in longer tem planning since they do not need to worry about maintaning profits for every trimester.

Great episode, John!
Thanks for fleshing out some of the details of these incredibly challenging optics.

Easily the best documentary about the subject! Superb work.

That's really impressive stuff, it looks like building spaceships is kindergarten-level engineering in comparison ;-) Do you document the sources you use for your videos somewhere? That would be pretty nice to dig deeper into a subject taking advantage of your great efforts to get an overview on the subject at hand.

I have been in software for decades and have marveled all along at what must be going into the hardware. This explained it for me in sufficient detail, and I marveled all over again. So *thanks*!

This Video was awesome thank you for posting. As someone who works in the optics field its really great to see a youtuber putting in the research and detail. I also love your channel so i was excited to see this update. Thanks

Don't think I've got the IQ points to process this video... how insanely clever are the people behind this tech

Thank you for bringing a more simple and clear explanation of how these UV Lithography works. Greetings from Kaohsiung!

It is beyond superlatives, for the reason that it embodies the core principles of what optics and lensing is in the holistic holographic context.
Brilliant review and presentation, thank you.

Mind = Blown!
Semiconductor industry is highly underrated. Software companies are nothing comparing to this.
I wish carl zeiss gets listed in American stock exchange. I would bet all my money in asml and carl zeiss

These machines and optics are really among the most advanced 'mass produced' engineering feats humans have done so far, and they are producing the actual most advanced mass produced goods.

Just blew my mind. Thank you for making it.

Excellent summation. Thank you.

Brilliant, again. This channel is a gem, much thanks.

This explainer video is a *class of its own*. Thank you.

As an ASML employee I can say this was a good video

Thank you for your deep research and thorough explanations of the processes involved

Simply amazing what ASML and Carl Zeiss have achieved! Incredible stuff!👍

Excellent video on these processes , as always great content 👍

I'm very grateful for your videos, this is so crazy even my friends flipped when i share this information. These videos explain so much of deep industry, Thanks!!

An important additional point is that the plasma produces multiple wavelength of light, but the distributed bragg reflectors are very selective which wavelength they reflect - to the point that the angle changes the best reflected frequency. I suspect the multiple mirrors also to increase the purity of the light, at the cost of intensity.

Let's just appreciate the staggering amount of innovation, engineering and production challenges overcome to produce this machine.

Holy COW! after watching this, and other videos that touch on what it takes to make a sophisticated, modern chip, it is utterly mind boggling! I get the impression that putting a man on the moon was child’s play in comparison to what it takes to design and build these incredibly sophisticated machines! I am utterly astounded by the level of physics and chemistry knowledge (and engineering) that it took to build these wonders of human ingenuity. I am truly in awe of the level of precision that it takes.

The Tin vaporization process of EUV is so incredibly cool!

Wow I really love the in-depth videos, it’s truly amazing that these kind of machines does exists :) . Hope to hear even more about euv process maybe some more details about the new kind of masks used?

Great job as always!!

Understood everything perfectly, thanks!

This was FASCINATING

Very much technical and indetailed explanation about Zeiss Multi layer optics systems...as a non technical guy i was also able to understand few things....
thank you so much Asianometry.

I worked on the plasma source for my PhD while ASML were trying to realise this tech, amazing stuff and great to see a very well presented video on this. Working on soft X-ray tomography now with SiriusXT, I would love to hear your take on it as this new disruptive technology ramps up.

Mind-blowing stuff. Great video.

Economics + science video, really thanks for your efforts.

50 pm, thats roughly 1/3 or 1/2 the diameter of a molybdenum or silicon atom respectively. so every single atom has to be spot on on its designated position on the mirror 50 cm diameter.
thats far bejond my comprehension I've to admit, absolutely mindbogling!

The memes really help with the explanation 🤣

Underrated channel!!!

just absolute amazing video

Great video as always, very interesting stuff. :)

amazing job. well done research on this.

Love to see a mention of MeRiT. I'm working on it's software for years and started on the first AFM.
AFMs are fun. They can even push and pick up particles. They even make a tool for it, the PRT.
And yes, most people working there have Dr. in front of their names. Generally super smart and nice people.

The reason ELLIPSOIDS vs PARABOLIC shapes (or paraboloid) are used is because parabolic reflectors reflect light from the FOCI parallel to an imaginary line defined by that foci and the parabola's asymptote / apogee. That's to say, rays reflected will be parallel that line (along with diverging rays. An ELLIPSOID however, allows focusing reflections at the other focus.
Single-reflection rays (photons) emanating from one of an ellipse's two foci will be focused (converged) at the other foci ... which I'd presume to be the wafer / mask, etc., in this case.

Outstanding content.

Truly exquisite equipments

why this video still doesn't have at least 1mln views ? because understanding it only for legends. Great to see you here, legends.

Dude… you are seriously good/ intelligent…. Holly crap.. Good for you mate!

This is real insane engineering.

This is really amazing

When I started working at ASML a decade ago Wikipedia said EUV lithography was impossible.
Yes wikipedia can be questionable at times but still that makes me smile.

Somehow your voice sounds like the late Grant Imahara (a.o. known from Mythbusters) and
I visualize him speaking in the mike.
Keep up your excellent explanations. Greeting from The Netherlands (aka Holland)

Even with the USA comparison I can't understand how flat these mirrors are. Amazing, thank you for the great video.

These videos on lithography are truly mind blowing for an everyday guy like me.
The intricacy and detail of these machines and the level of science and engineering you explain is like a whole new world.
And I'm really interested in this Ball of tin that gets shot by a lazer. Is the frequency really 50000 times per second?

Your videos are the best presentations of technology. I wonder if an alternate design approach is easier to achieve EUV lithography for small diameter wafers by use of small deflection mirrors where XRays or EUV graze off the surface. Also, instead of a pulse of EUV over the whole wafer, if it were designed as a stepper process where a column of ICs are exposed at a time.

From a laymen’s perspective the chip in the machine I’m typing this on, had to be made by impossibly sophisticated machines, that required components that had to be made on impossibly sophisticated machines that required components that had to be made by impossibly sophisticated machines. Where does it end? The levels of precision are mind boggling to me, and this is merely a snapshot in time of our species’ technological development, what will the next cutting edge be? Truly impressive and somewhat disconcerting. Thank you for the view inside these profound precision machines.

amazing, great info about this technology

Amazing video. Love your content.

simply incredible

The wavelength is not solely 13.5 nm but covers 13.2-13.8 nm. There is also some DUV light which they have spent much trying to eliminate.

It is really kinda magic. Really astonishing tec

You should put the link of previous related video on the description to let audian easy to follow. Thanks

This is cutting edge and I still can't accept Intel "intentionally" got themselves behind on technology or buying few ASML equipment or have not considered the foundry strategy back then. Current Intel CEO though will be first to get the High NA EUV equipment

omg, this is awesome. I'm not sure where Zeiss' work ends and ASML's starts, but that's not important. Maybe there's no strict delineation. Nevertheless, we must go deeper! Idea: mask making industry?

These machines are the absolute pinnacle of human technology. They sound impossible to build and even fathom. That's why we need science. Science leads you to discoveries that make the "impossible" achievable. Giants standing on the shoulders of giants.

When you said "multilayer mirrors" I could see this professor of mine, quite a funny person, explainig them!

This is a spectacular video and the memes in between did u make them also ? Anyway the video was amazing cheers !!

Yaybuzz. I can remember Zeiss making eyeglasses and insanely expensive (and precise) binoculars and camera lenses. That stuff up there is a 747 compared to that Wright brothers stuff.

Incredible. Thank you for an explanation at my level. Scary thing is these machines are probably going to be scrap in10-15 years wouldnt they be fun to pull apart.

Great exposition as always. Just want to add some physics-related corrections. Bragg reflection needs many layers not because one layer reflects not enough light. Indeed, one layer reflects pretty much nothing. Many layers are needed to produce coherent superposition of scattered waves in such a way that much is reflected and little is transmitted. It's pretty much the opposite to the photographic lens coating which is also multilayer these days. Second, the flare "much loved by J J Abrams" is in fact due to the use of anamorphic (cylindrical rather than spherical) lenses for wide-screen film photography. On the other hand, rms of mirror/lens surface leads to imperfect focusing which pretty much looks like your 5nm machine has resolution close to say a 10nm one. Having said that, I truly admire your dedication: I would never in my life want to sift through dozens of conference papers on the topic. Thanks again!

Great video

Hey John. Great video. I'm curious what shares in ASML would cost. Seems like a great investment. Also I would love to see you do an article on adaptive optics in astronomy. It seems like pretty well guarded technology as I only find block diagrams when I look it up. I am an amateur astrophotographer and I'd love to develop a cheaper adaptive optics system for amateurs that works the same way as professional adaptive optics. I study lens and mirror design a lot and Carl Zeiss is always mentioned.

Again awesome research! Can you do research into Physik Instrumente who I believe makes all the small motors for continually adjusting the mirrors and stages for the reticle and wafer?

The extreme advanced level of these machines is beyond comprehension.

Wow!!
Looking forward to videos about applied materials, Lam research and KLA..
Cheers mate

Love, Love, Love !!

You got me subscribed with picometers.

I love your videos. I can't think of any machine that is more complex. This in turn makes me wonder what advancements we will see in the next 20 years.