From Tumblr, I’d bet?
From Tumblr, I’d bet?
I figure the increased power getting to the etching process also helps increase throughput. I’m guessing that you only need a total amount of energy to do a unit of etching work, so with more power you can do more units of etching work per unit time.
Ah you’re right, I just read what I thought was there probably because of the subtext op gave. It was just a university lab in Indiana. The only connection then is that some of the people that worked on it are (assuming here) Chinese
I think your title is misleading. It was a joint effort between a DOE lab and a university lab Chinese lab.
That aside nothing to me really seems to indicate a relationship between the tin catalysts for this and the euv droplets beyond they’re both tin, and small. For euv, they need to be propelled through the air (and liquid? [might be done by the laser, idr]), but this technology it sounds like they’re solids on a substrate.
Being able to make tin particles a controlled size that small may help euv, but I think it’s a bit of a spurious connection.
Per 2 hours even! Makes that 1500 hours
Yeah, I’m with you there, not sure what they mean by that
A/an before a word is dependant on how the subsequent word is pronounced, not spelled. So for that sentence, the implication is that it’s pronounced closer to “erb”, thus “an” to precede instead of “a”. Another example that’s a bit counterintuitive is “one” being pronounced like “won”, so you’d get “a one time thing” rather than “an one time thing”.
The LEDs don’t particularly (unless it’s a very powerful one), their power supply does though. LEDs run on DC voltage, so they need a converter from the AC line voltage to not die instantly
It only affected key start cars, if it was push button start, it was immune to the attack you describe.
I would advise against the water soluble wrapper pods since they’re iirc a major contributor to microplastics in our water