 So we're here with Morphotonix here at the display week. That's right. 2023. Yeah, we are finally here. That's right. Thanks for coming. Thanks for stopping by. I appreciate it. We are at Morphotonix. We are a Dutch company based in the southern part of the Netherlands, right down the street from ASML. We are a company that started in 2014. We make large area nano imprinting equipment. So what does that mean is that we can replicate very precise nano and micron scale structures on very large areas. And what does that mean is that if you want more sophisticated displays that can manage light, manipulate light in ways that are not known before or not been done before, we can help. Basically, we can produce these things in very large areas that way you can get much better cost and apply this in all kinds of displays. What do you mean? Any optics, any display, any size? So are you compatible with the whole industry? Well, we hope to be. We hope to be. So by any optics, we mean any optical structure that range from 500 micron down to 50 nanometers. We can replicate it. By any display, we mean no matter the underlying display technology, whether that's LCD, OLEDs, or micro LED, or a smart watch, or a tablet, or a 65 inch TV, it doesn't matter. We can apply our nano imprinting technology to it. And by any size, we mean any size up to what's known in the display world as Gen 5, which is 1.1 meters to 1.3 meters. We can replicate these very precise structures on such large areas. So that's what we mean by any size. Why do people need these kind of beautiful shapes on their displays? Where does it go on the display? Where does it go? So there are three areas that we are focused on. One is anti-glare textures for displays so that you can reduce or you can have sunlight readability, ambient light readability. When you're at the beach, when you're outdoors, and you're trying to look at your watch or your phone or your tablet, it really helps to have these kind of anti-glare structures on your devices. And we already have them on many consumer electronic devices, but we hope that there's more and more sophisticated ones. That's one. Two, 3D displays. Glasses free 3D displays. I'm not talking auto stereo, one eye, two eye. We are talking more like light field displays. The future, the holographic displays. For holographic displays to work, you need very sophisticated, higher-end optical capabilities. And this can only work if you go beyond the wafer scale and if you do display-level large-area optical manufacturing. And that's where we come in. So it's like a lens. It's reflecting the light. We don't design the lens. We are an equipment maker, so the lenses, the optics are designed by our customers. And those customers then give us a master from which we can then create essentially imprints, replicate structures from. And I was going to say the third one is augmented reality. Although we think it might be a little bit further down the road in order to make augmented reality classes, as you can see right here, these are waveguides. These are just pretty standard. We call them one-dimensional pupil expansion. Pretty straightforward waveguides that we are just showing as for demo purposes. Essentially this would be, one of these things would go into one eye. And if augmented reality classes were to take off and you were to have tens of millions of augmented reality classes worldwide, you need to manufacture the optics for them beyond the wafer scale. So in the wafer scale, you can only put 24 of these things on a 300-millimeter wafer, which is the largest size wafer you can get. We are able to put 480 or 270 eyepieces on it, on our largest size substrate, basically. Can you make them as fast as those guys make wafers? Well, if there is need for it, yes, we can go down to 90 seconds. 480 microdislates. One imprint can take 90 seconds to do? Yes. You can make 480 waveguides, again, texture-dependent, so disclaimers aside. Theoretically, we can make 480 waveguides and a Gen 5 size imprint in 90 seconds, in less than two minutes. How do you compare with the stuff people talk about for ASML? Are they helping the wafers? They make the stuff that goes into the wafer factories? The photography machines, yes. They are literally down the road from us. ASML we can see from our offices. Do you have any ASML employees? We have employees that used to work at ASML, yes. Is it similar to physics? Not quite. ASML basically makes lithography machines for semiconductor chip manufacturing, if we were to keep things at a high level. What we do is we do a nanoimprint. It's called nanoimprinting lithography. This is mainly for optics. We have nothing to do with semiconductors. We don't do any chips or anything like that. Our focus is around optics and photonics. We have some customers and potential customers in non-display applications, like even biosensors or smart windows and other types of applications. Cool. And how's it going here, the display week? It's a little bit slower than we liked on the first day, but in the morning it was, but in the afternoon it has picked up and today is the first day. Tomorrow is usually the busier day, so I think we're going to see more people. And yeah, we are excited to be here. We are here every year and it is a good show where all the display geeks gather. After my video is published it's like a million people at the booth. All right. We are looking for, we have two bottles for them. So, you know, from the Netherlands. Oh nice. Cool. All right. Thank you. Appreciate it. Thanks for stopping by. Can I send you some money? I would use wise if I had to send you some money. 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