> The company's researchers have found a way to boost the power of the EUV light source to 1,000 watts from 600 watts now.
with more on the horizon:
> We see a reasonably clear path toward 1,500 watts, and no fundamental reason why we couldn't get to 2,000 watts.
> "We see a reasonably clear path toward 1,500 watts, and no fundamental reason why we couldn't get to 2,000 watts."
> to help retain the Dutch company's edge over emerging U.S. and Chinese rivals
Great news, but what a strange attempt to equate the U.S. and China in this and build a narrative. Cymer was founded in San Diego.
The reality is that it's American technology that is used in ASML machines so I don't know why the article tries to frame it like it's a competition.
> The key advancements in Monday's disclosure involved doubling the number of tin drops to about 100,000 every second, and shaping them into plasma using two smaller laser bursts, as opposed to today's machines that use a single shaping burst.
This is covered in that video. Did they let him leak their Q1 plans?
So the ASML machines combine technologies developed in various places, not only in USA, even if the UV source is indeed a critical component. While an ASML machine would not work without the UV source, it would also not work without many other critical optical and mechanical components.
If it were so easy to make a lithography machine when you have a UV source, Cymer would have remained an independent company or it would have been bought by a US company. Cymer has been bought by their only customer.
The same happens when you look at a PC, it is likely that it contains something essential that comes from USA, i.e. the CPU logic may be designed by AMD, but the manufacturing technology is designed in Taiwan, the memories may be designed and made in Korea, other chips may be designed and made in Taiwan, other components come from Japan, the PCB may have been designed in Taiwan, but actually made in China, and so on.
So yes, it has some important US technology in it, but there is a very long way from a CPU logic design to a physical computer and most of that rarely has anything to do with USA.
The same happens with an ASML machine.
Or this presentation which came out way long ago.
But now 100k times a second apparently. Humans are amazing.
Oh and can you build it so it can run hundreds or thousands of hours before being cleaned? Thanks byyyyyyyyeeeeee!
< Why?!
> To make a better laser.
< Yes, of course you are.
> 100,000 times per second.
< [AFK, buying shares.]
(These emission lines are also what is being used in x-ray spectroscopy to identify elements)
We are quickly leaving the realm of dependent variables still looking anything like diversification.
The primary method is to rely grazing angle reflection, but that per definition only allows you a tiny deflection at a time, nothing like a parabolic mirror or whatnot.
As I hear it, the decision had large economic component related to Masks and even OPC.