Speaking of Fresnel lenses, one of the coolest applications is a plastic "wide-angle lens" sticker that you could affix to your car's rear window (https://www.amazon.de/-/en/WIDE-ANGLE-WINDOW-FRESNEL-OPTICAL...) to increase the field of view. Their popularity has dropped since the advent of "back-up cameras" however.
Therre's a diagram in TFA, comparing the construction of a conventional lens with a metalens.
The diagram shows two labelled parts that I didn't understand:
a) Glass plate with bandpass filter
b) Near-infrared contact image sensor
The legend doesn't say, but I suspect the diagrams show a distance sensor, not a camera. So I assume the infrared lasers have been omitted from the diagram. Also, I'd quite like to know a bit more about the optical bandpass filter. I suppose any "transparent" material is effectively a bandpass filter; this one presumably passes near-infrared, so is it like the dark-red plastic filter on a TV remote?
Optical bandpass filters are used to fine-tune the bandwidth of the sensor, as most sensors actually have pretty wide bandwidths. Typical silicon sensors have sensitivity extending well into the IR, which can confuse people when their pictures show lights they can't see. This can totally be made using something like the dark-red filter on the TV remote (reversed, it'd block red so appear blue), but fancier ones will use thin-film coatings to achieve steeper roll-offs. I don't see how meta-lenses are supposed to achieve this effect. They may use absorbing substrate, or may add a backside coating.
Contact image sensors are image sensors designed to be slapped right up against something. They're used in scanners and surface inspection sensors. No clue how this relates to meta-lenses.
I suspect it's just a bad diagram. Their barrel design is impossible to manufacture.
The process starts by illuminating a scene with a monochromatic light sourceāa
laser.
What that means is that this only works with monochromatic light. The focal distance would be different for each wavelength. That's why it's useful for laser range finding. You would need to illuminate with several different lasers to get a "full color" image, and likely have multiple lenses... although some are tunable.
So it's not gonna work for standard glasses, current VR or anything else like that.
Seems like one of the obvious applications. I wonder why it isn't mentioned. Is there a technical limitation that make it impractical? Size maybe, the lens shown in the article are all tiny and I guess lens that would be practical for AR/VR would be really expensive.
Not right now. Sounds like they are working on lenses that could one day work with colored light for cameras. Maybe after that, they could be used for specials?
This article describes how nano metalenses work and what they can be used for.
Spoiler alert: they can't be used to replace your smartphone's camera lenses yet, but can be used for IR distance sensors used on drones and soon, polarization sensors that will be able to tell materials apart and even detect cracks in concrete.
rob74|2 years ago
captaindiego|2 years ago
smusamashah|2 years ago
https://engineering.princeton.edu/news/2021/11/29/researcher...
https://light.princeton.edu/publication/neural-nano-optics/
unknown|2 years ago
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denton-scratch|2 years ago
The diagram shows two labelled parts that I didn't understand:
a) Glass plate with bandpass filter
b) Near-infrared contact image sensor
The legend doesn't say, but I suspect the diagrams show a distance sensor, not a camera. So I assume the infrared lasers have been omitted from the diagram. Also, I'd quite like to know a bit more about the optical bandpass filter. I suppose any "transparent" material is effectively a bandpass filter; this one presumably passes near-infrared, so is it like the dark-red plastic filter on a TV remote?
Why's the sensor called a "contact" image sensor?
itishappy|2 years ago
Contact image sensors are image sensors designed to be slapped right up against something. They're used in scanners and surface inspection sensors. No clue how this relates to meta-lenses.
I suspect it's just a bad diagram. Their barrel design is impossible to manufacture.
Source: Optical engineer.
https://www.thorlabs.com/newgrouppage9.cfm?objectgroup_id=10...
https://en.wikipedia.org/wiki/Contact_image_sensor
kurthr|2 years ago
So it's not gonna work for standard glasses, current VR or anything else like that.
DrNosferatu|2 years ago
Sosh101|2 years ago
GuB-42|2 years ago
anoncow|2 years ago
mareko|2 years ago
mareko|2 years ago
Spoiler alert: they can't be used to replace your smartphone's camera lenses yet, but can be used for IR distance sensors used on drones and soon, polarization sensors that will be able to tell materials apart and even detect cracks in concrete.
nomel|2 years ago
Video of Gavin Smith explaining polarization with a neat mechanical/visual demonstration: https://youtu.be/9SAzxlF57mc?feature=shared&t=128
Not sure if he ever made the camera.
TeMPOraL|2 years ago
unknown|2 years ago
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hbarka|2 years ago
vivzkestrel|2 years ago
unknown|2 years ago
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