This is awesome, yet I'm sceptical about application/aberration thing.
( , Sun 5 Jun 2016, 13:49, Share, Reply)
( , Sun 5 Jun 2016, 13:49, Share, Reply)
Reading the article and information available
Abberation is dramatic reduced due to the nano technology allowing the light waves to be controlled more precisely
Proof is in the pudding and I am looking forward to seeing images produced by this technology
( , Sun 5 Jun 2016, 14:13, Share, Reply)
Abberation is dramatic reduced due to the nano technology allowing the light waves to be controlled more precisely
Proof is in the pudding and I am looking forward to seeing images produced by this technology
( , Sun 5 Jun 2016, 14:13, Share, Reply)
Maybe.
""The team's lenses do suffer from quite large chromatic aberration – while this is not a problem for technical applications such as microscopy
performed with monochromatic laser light, it would be for consumer applications such as camera lenses. Luckily, in 2015, Capasso and
colleagues showed that a strategically designed silicon metasurface could focus multiple infrared wavelengths at the same point, and
Capasso believes this should be possible at visible wavelengths too. "It's just a matter of time before we do it also with titanium oxide,""
( , Sun 5 Jun 2016, 15:04, Share, Reply)
""The team's lenses do suffer from quite large chromatic aberration – while this is not a problem for technical applications such as microscopy
performed with monochromatic laser light, it would be for consumer applications such as camera lenses. Luckily, in 2015, Capasso and
colleagues showed that a strategically designed silicon metasurface could focus multiple infrared wavelengths at the same point, and
Capasso believes this should be possible at visible wavelengths too. "It's just a matter of time before we do it also with titanium oxide,""
( , Sun 5 Jun 2016, 15:04, Share, Reply)