Some press coverage (though I highly recommend just reading the paper linked as the OP, it’s quite approachable to skim without prior knowledge, and you get to see how they turn the Star Trek replicator problem into “just” a loss optimization problem with projectors and spinning mirrors!):
And as other have noted, it’s worth bearing in mind that most images here are less than a centimeter in scale; the scale bar is a millimeter. Super impressive stuff.
Minor correction. Actually confusingly the scale bars vary not just from figure to figure but from image to image within a single figure as noted in the captions. It's a rather odd choice IMO.
They're printing 12 μm features (fig 4h). For high speed mass production of more or less arbitrary geometry with no need to retool it's seriously impressive.
I believe this happens inside a liquid substrate that cures (hardens) when exposed to light. Instead of building up a shape by exposing a series of flat layers (stacked on top of eachother) one at a time, this exposes the entire 3d shape at once, using holograms.
That replicator involved arbitrary chemistry, so except for fans of polymer flavored “chicken” nuggets, no. :)
But if they can scale up dimensions it is a big opportunity.
Or scale down dimensions.
Or scale up resolution.
Or scale up the throughput for manufacturing small complex parts. Not just one part at a time but many parts in proximity at a time, a bit like chip production.
All four seem likely now that the principle has been proven.
https://aminsightasia.com/education/tsinghua-dish-3d-printin...
And as other have noted, it’s worth bearing in mind that most images here are less than a centimeter in scale; the scale bar is a millimeter. Super impressive stuff.
Promising tech
Until you see the scale bar
Is this a Star Trek replicator or what?
But if they can scale up dimensions it is a big opportunity.
Or scale down dimensions.
Or scale up resolution.
Or scale up the throughput for manufacturing small complex parts. Not just one part at a time but many parts in proximity at a time, a bit like chip production.
All four seem likely now that the principle has been proven.